#include "digiSettingsPanel.h" #include #include #include #include #include std::vector> infoIndex = {{"Serial Num : ", PHA::DIG::SerialNumber}, {"IP : ", PHA::DIG::IPAddress}, {"Model Name : ", PHA::DIG::ModelName}, {"FPGA version : ", PHA::DIG::FPGA_firmwareVersion}, {"DPP Type : ", PHA::DIG::FirmwareType}, {"CUP version : ", PHA::DIG::CupVer}, {"ADC bits : ", PHA::DIG::ADC_bit}, {"ADC rate [Msps] : ", PHA::DIG::ADC_SampleRate}, {"Num. of Channel : ", PHA::DIG::NumberOfChannel}, {"Input range [Vpp] : ", PHA::DIG::InputDynamicRange}, {"Input Type : ", PHA::DIG::InputType}, {"Input Impedance [Ohm] : ", PHA::DIG::InputImpedance} }; QStringList LEDToolTip = { "LED_JESD_Y_PASS" , "LED_JESD_H_PASS" , "LED_DDR4_0_PASS" , "LED_DDR4_1_PASS" , "LED_DDR4_2_PASS" , "LEDFP_FAIL" , "LEDFP_NIM" , "LEDFP_TTL" , "LEDFP_DTLOSS" , "LEDFP_DTRDY" , "LEDFP_TRG" , "LEDFP_RUN" , "LEDFP_PLL_LOCK" , "LEDFP_CLKOUT" , "LEDFP_CLKIN" , "LEDFP_USB" , "LEDFP_SFP_SD" , "LEDFP_SFP_ACT" , "LEDFP_ACT" } ; QStringList ACQToolTip = {"Armed", "Run", "Run_mw", "Jesd_Clk_Valid", "Busy", "PreTriggerReady", "LicenceFail" }; QStringList chToolTip = { "Channel signal delay initialization status (1 = initial delay done)", "Channel time filter initialization status (1 = time filter initialization done)", "Channel energy filter initialization status (1 = energy filter initialization done)", "Channel full initialization status (1 = initialization done)", "Reserved", "Channel enable acquisition status (1 = acq enabled)", "Channel inner run status (1 = run active)", "Time-energy event free space status (1 = time-energy can be written)", "Waveform event free space status (1 = waveform can be written)"}; QColor orangeColor(255, 165, 0); DigiSettingsPanel::DigiSettingsPanel(Digitizer2Gen ** digi, unsigned short nDigi, QString settingPath, QWidget * parent) : QWidget(parent){ setWindowTitle("Digitizers Settings"); setGeometry(0, 0, 1850, 1050); //setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding); this->digi = digi; this->nDigi = nDigi; if( nDigi > MaxNumberOfDigitizer ) { this->nDigi = MaxNumberOfDigitizer; qDebug() << "Please increase the MaxNumberOfChannel"; } this->digiSettingPath = settingPath; ID = 0; enableSignalSlot = false; QVBoxLayout * mainLayout = new QVBoxLayout(this); this->setLayout(mainLayout); tabWidget = new QTabWidget(this); mainLayout->addWidget(tabWidget); //@========================== Tab for each digitizer for(unsigned short iDigi = 0; iDigi < this->nDigi; iDigi++){ QScrollArea * scrollArea = new QScrollArea(this); scrollArea->setWidgetResizable(true); scrollArea->setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding); tabWidget->addTab(scrollArea, "Digi-" + QString::number(digi[iDigi]->GetSerialNumber())); digiTab[iDigi] = new QWidget(tabWidget); scrollArea->setWidget(digiTab[iDigi]); QHBoxLayout * tabLayout_H = new QHBoxLayout(digiTab[iDigi]); QVBoxLayout * tabLayout_V1 = new QVBoxLayout(); tabLayout_H->addLayout(tabLayout_V1); QVBoxLayout * tabLayout_V2 = new QVBoxLayout(); tabLayout_H->addLayout(tabLayout_V2); {//^====================== Group of Digitizer Info QGroupBox * infoBox = new QGroupBox("Board Info", digiTab[iDigi]); //infoBox->setSizePolicy(sizePolicy); QGridLayout * infoLayout = new QGridLayout(infoBox); tabLayout_V1->addWidget(infoBox); const unsigned short nRow = 4; for( unsigned short j = 0; j < (unsigned short) infoIndex.size(); j++){ QLabel * lab = new QLabel(QString::fromStdString(infoIndex[j].first), digiTab[iDigi]); lab->setAlignment(Qt::AlignRight | Qt::AlignCenter); leInfo[iDigi][j] = new QLineEdit(digiTab[iDigi]); leInfo[iDigi][j]->setReadOnly(true); Reg reg = infoIndex[j].second; QString text = QString::fromStdString(digi[iDigi]->ReadValue(reg)); if( reg.GetPara() == PHA::DIG::ADC_SampleRate.GetPara() ) { text += " = " + QString::number(digi[iDigi]->GetTick2ns(), 'f', 1) + " ns" ; } leInfo[iDigi][j]->setText(text); infoLayout->addWidget(lab, j%nRow, 2*(j/nRow)); infoLayout->addWidget(leInfo[iDigi][j], j%nRow, 2*(j/nRow) +1); } } {//^====================== Group Board status QGroupBox * statusBox = new QGroupBox("Board Status", digiTab[iDigi]); QGridLayout * statusLayout = new QGridLayout(statusBox); statusLayout->setAlignment(Qt::AlignLeft); statusLayout->setHorizontalSpacing(0); tabLayout_V1->addWidget(statusBox); //------- LED Status QLabel * lbLED = new QLabel("LED status : "); lbLED->setAlignment(Qt::AlignRight | Qt::AlignCenter); statusLayout->addWidget(lbLED, 0, 0); for( int i = 0; i < 19; i++){ LEDStatus[iDigi][i] = new QPushButton(digiTab[iDigi]); LEDStatus[iDigi][i]->setEnabled(false); LEDStatus[iDigi][i]->setFixedSize(QSize(30,30)); LEDStatus[iDigi][i]->setToolTip(QString::number(i) + " - " + LEDToolTip[i]); LEDStatus[iDigi][i]->setToolTipDuration(-1); //TODO set tooltip position on top statusLayout->addWidget(LEDStatus[iDigi][i], 0, 19 - i); } //------- ACD Status QLabel * lbACQ = new QLabel("ACQ status : "); lbACQ->setAlignment(Qt::AlignRight | Qt::AlignCenter); statusLayout->addWidget(lbACQ, 1, 0); for( int i = 0; i < 7; i++){ ACQStatus[iDigi][i] = new QPushButton(digiTab[iDigi]); ACQStatus[iDigi][i]->setEnabled(false); ACQStatus[iDigi][i]->setFixedSize(QSize(30,30)); ACQStatus[iDigi][i]->setToolTip(QString::number(i) + " - " + ACQToolTip[i]); ACQStatus[iDigi][i]->setToolTipDuration(-1); statusLayout->addWidget(ACQStatus[iDigi][i], 1, 7 - i); } //------- Temperatures QLabel * lbTemp = new QLabel("ADC Temperature [C] : "); lbTemp->setAlignment(Qt::AlignRight | Qt::AlignCenter); statusLayout->addWidget(lbTemp, 2, 0); for( int i = 0; i < 8; i++){ leTemp[iDigi][i] = new QLineEdit(digiTab[iDigi]); leTemp[iDigi][i]->setReadOnly(true); leTemp[iDigi][i]->setAlignment(Qt::AlignHCenter); statusLayout->addWidget(leTemp[iDigi][i], 2, 1 + 2*i, 1, 2); } QPushButton * bnUpdateStatus = new QPushButton("Update Status", this); statusLayout->addWidget(bnUpdateStatus, 2, 19); connect(bnUpdateStatus, &QPushButton::clicked, this, &DigiSettingsPanel::UpdateStatus); for( int i = 0; i < statusLayout->columnCount(); i++) statusLayout->setColumnStretch(i, 0 ); } {//^====================== Board Setting Buttons QGridLayout * bnLayout = new QGridLayout(); tabLayout_V1->addLayout(bnLayout); int rowId = 0; //------------------------------------- QLabel * lbSettingFile = new QLabel("Setting File : ", digiTab[iDigi]); lbSettingFile->setAlignment(Qt::AlignRight | Qt::AlignCenter); bnLayout->addWidget(lbSettingFile, rowId, 0); leSettingFile[iDigi] = new QLineEdit(digiTab[iDigi]); leSettingFile[iDigi]->setReadOnly(true); leSettingFile[iDigi]->setText(QString::fromStdString(digi[iDigi]->GetSettingFileName())); bnLayout->addWidget(leSettingFile[iDigi], rowId, 1, 1, 9); //------------------------------------- rowId ++; bnReadSettngs[iDigi] = new QPushButton("Refresh Settings", digiTab[iDigi]); bnLayout->addWidget(bnReadSettngs[iDigi], rowId, 0, 1, 2); connect(bnReadSettngs[iDigi], &QPushButton::clicked, this, &DigiSettingsPanel::RefreshSettings); bnResetBd[iDigi] = new QPushButton("Reset Board", digiTab[iDigi]); bnLayout->addWidget(bnResetBd[iDigi], rowId, 2, 1, 2); connect(bnResetBd[iDigi], &QPushButton::clicked, this, [=](){ SendLogMsg("Reset Digitizer-" + QString::number(digi[ID]->GetSerialNumber())); digi[ID]->Reset(); RefreshSettings(); }); bnDefaultSetting[iDigi] = new QPushButton("Set Default Settings", digiTab[iDigi]); bnLayout->addWidget(bnDefaultSetting[iDigi], rowId, 4, 1, 2); connect(bnDefaultSetting[iDigi], &QPushButton::clicked, this, &DigiSettingsPanel::SetDefaultPHASettigns); bnSaveSettings[iDigi] = new QPushButton("Save Settings", digiTab[iDigi]); bnLayout->addWidget(bnSaveSettings[iDigi], rowId, 6, 1, 2); connect(bnSaveSettings[iDigi], &QPushButton::clicked, this, &DigiSettingsPanel::SaveSettings); bnLoadSettings[iDigi] = new QPushButton("Load Settings", digiTab[iDigi]); bnLayout->addWidget(bnLoadSettings[iDigi], rowId, 8, 1, 2); connect(bnLoadSettings[iDigi], &QPushButton::clicked, this, &DigiSettingsPanel::LoadSettings); //--------------------------------------- rowId ++; bnClearData[iDigi] = new QPushButton("Clear Data", digiTab[iDigi]); bnLayout->addWidget(bnClearData[iDigi], rowId, 0, 1, 2); connect(bnClearData[iDigi], &QPushButton::clicked, this, [=](){ digi[ID]->SendCommand(PHA::DIG::ClearData); SendLogMsg("Digi-" + QString::number(digi[ID]->GetSerialNumber()) + "|Send Command : " + QString::fromStdString(PHA::DIG::ClearData.GetFullPara())); UpdateStatus(); }); bnArmACQ[iDigi] = new QPushButton("Arm ACQ", digiTab[iDigi]); bnLayout->addWidget(bnArmACQ[iDigi], rowId, 2, 1, 2); connect(bnArmACQ[iDigi], &QPushButton::clicked, this, [=](){ digi[ID]->SendCommand(PHA::DIG::ArmACQ); SendLogMsg("Digi-" + QString::number(digi[ID]->GetSerialNumber()) + "|Send Command : " + QString::fromStdString(PHA::DIG::ArmACQ.GetFullPara())); UpdateStatus(); }); bnDisarmACQ[iDigi] = new QPushButton("Disarm ACQ", digiTab[iDigi]); bnLayout->addWidget(bnDisarmACQ[iDigi], rowId, 4, 1, 2); connect(bnDisarmACQ[iDigi], &QPushButton::clicked, this, [=](){ digi[ID]->SendCommand(PHA::DIG::DisarmACQ); SendLogMsg("Digi-" + QString::number(digi[ID]->GetSerialNumber()) + "|Send Command : " + QString::fromStdString(PHA::DIG::DisarmACQ.GetFullPara())); UpdateStatus(); }); bnSoftwareStart[iDigi] = new QPushButton("Software Start ACQ", digiTab[iDigi]); bnLayout->addWidget(bnSoftwareStart[iDigi], rowId, 6, 1, 2); connect(bnSoftwareStart[iDigi], &QPushButton::clicked, this, [=](){ digi[ID]->SendCommand(PHA::DIG::SoftwareStartACQ); SendLogMsg("Digi-" + QString::number(digi[ID]->GetSerialNumber()) + "|Send Command : " + QString::fromStdString(PHA::DIG::SoftwareStartACQ.GetFullPara())); UpdateStatus(); }); bnSoftwareStop[iDigi] = new QPushButton("Software Stop ACQ", digiTab[iDigi]); bnLayout->addWidget(bnSoftwareStop[iDigi], rowId, 8, 1, 2); connect(bnSoftwareStop[iDigi], &QPushButton::clicked, this, [=](){ digi[ID]->SendCommand(PHA::DIG::SoftwareStopACQ); SendLogMsg("Digi-" + QString::number(digi[ID]->GetSerialNumber()) + "|Send Command : " + QString::fromStdString(PHA::DIG::SoftwareStopACQ.GetFullPara())); UpdateStatus(); }); //--------------- if( digi[iDigi]->IsDummy() || !digi[iDigi]->IsConnected() ){ bnReadSettngs[iDigi]->setEnabled(false); bnResetBd[iDigi]->setEnabled(false); bnDefaultSetting[iDigi]->setEnabled(false); bnClearData[iDigi]->setEnabled(false); bnArmACQ[iDigi]->setEnabled(false); bnDisarmACQ[iDigi]->setEnabled(false); bnSoftwareStart[iDigi]->setEnabled(false); bnSoftwareStop[iDigi]->setEnabled(false); } } {//^============================ Board Settings tab QTabWidget * bdTab = new QTabWidget(digiTab[iDigi]); tabLayout_V1->addWidget(bdTab); {//^====================== Group Board settings bdCfg[iDigi] = new QWidget(this); bdTab->addTab(bdCfg[iDigi], "Board"); //digiBox[iDigi] = new QGroupBox("Board Settings", digiTab[iDigi]); // //digiBox->setSizePolicy(sizePolicy); QGridLayout * boardLayout = new QGridLayout(bdCfg[iDigi]); boardLayout->setAlignment(Qt::AlignTop); boardLayout->setSpacing(2); //tabLayout_V1->addWidget(digiBox[iDigi]); int rowId = 0; //------------------------------------- SetupComboBox(cbbClockSource[iDigi], PHA::DIG::ClockSource, -1, false, "Clock Source :", boardLayout, rowId, 0, 1, 2); QLabel * lbEnClockFP = new QLabel("Enable Clock Out Font Panel :", digiTab[iDigi]); lbEnClockFP->setAlignment(Qt::AlignRight | Qt::AlignCenter); boardLayout->addWidget(lbEnClockFP, rowId, 2, 1, 3); cbbEnClockFrontPanel[iDigi] = new RComboBox(digiTab[iDigi]); boardLayout->addWidget(cbbEnClockFrontPanel[iDigi], rowId, 5); SetupShortComboBox(cbbEnClockFrontPanel[iDigi], PHA::DIG::EnableClockOutFrontPanel); connect(cbbEnClockFrontPanel[iDigi], &RComboBox::currentIndexChanged, this, [=](){ if( !enableSignalSlot ) return; //printf("%s %d %s \n", para.GetPara().c_str(), ch_index, cbb->currentData().toString().toStdString().c_str()); QString msg; msg = "DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + "|" + QString::fromStdString(PHA::DIG::EnableClockOutFrontPanel.GetPara()); msg += " = " + cbbEnClockFrontPanel[ID]->currentData().toString(); if( digi[ID]->WriteValue(PHA::DIG::EnableClockOutFrontPanel, cbbEnClockFrontPanel[ID]->currentData().toString().toStdString())){ SendLogMsg(msg + "|OK."); cbbEnClockFrontPanel[ID]->setStyleSheet(""); }else{ SendLogMsg(msg + "|Fail."); cbbEnClockFrontPanel[ID]->setStyleSheet("color:red;"); } }); //------------------------------------- rowId ++; QLabel * lbStartSource = new QLabel("Start Source :", digiTab[iDigi]); lbStartSource->setAlignment(Qt::AlignRight); boardLayout->addWidget(lbStartSource, rowId, 0); for( int i = 0; i < (int) PHA::DIG::StartSource.GetAnswers().size(); i++){ ckbStartSource[iDigi][i] = new QCheckBox( QString::fromStdString((PHA::DIG::StartSource.GetAnswers())[i].second), digiTab[iDigi]); boardLayout->addWidget(ckbStartSource[iDigi][i], rowId, 1 + i); connect(ckbStartSource[iDigi][i], &QCheckBox::stateChanged, this, &DigiSettingsPanel::SetStartSource); } //------------------------------------- rowId ++; QLabel * lbGlobalTrgSource = new QLabel("Global Trigger Source :", digiTab[iDigi]); lbGlobalTrgSource->setAlignment(Qt::AlignRight); boardLayout->addWidget(lbGlobalTrgSource, rowId, 0); for( int i = 0; i < (int) PHA::DIG::GlobalTriggerSource.GetAnswers().size(); i++){ ckbGlbTrgSource[iDigi][i] = new QCheckBox( QString::fromStdString((PHA::DIG::GlobalTriggerSource.GetAnswers())[i].second), digiTab[iDigi]); boardLayout->addWidget(ckbGlbTrgSource[iDigi][i], rowId, 1 + i); connect(ckbGlbTrgSource[iDigi][i], &QCheckBox::stateChanged, this, &DigiSettingsPanel::SetGlobalTriggerSource); } //------------------------------------- rowId ++; SetupComboBox(cbbTrgOut[iDigi], PHA::DIG::TrgOutMode, -1, false, "Trg-OUT Mode :", boardLayout, rowId, 0, 1, 2); //------------------------------------- rowId ++; SetupComboBox(cbbGPIO[iDigi], PHA::DIG::GPIOMode, -1, false, "GPIO Mode :", boardLayout, rowId, 0, 1, 2); //------------------------------------- QLabel * lbAutoDisarmAcq = new QLabel("Auto disarm ACQ :", digiTab[iDigi]); lbAutoDisarmAcq->setAlignment(Qt::AlignRight); boardLayout->addWidget(lbAutoDisarmAcq, rowId, 4, 1, 2); cbbAutoDisarmAcq[iDigi] = new RComboBox(digiTab[iDigi]); boardLayout->addWidget(cbbAutoDisarmAcq[iDigi], rowId, 6); SetupShortComboBox(cbbAutoDisarmAcq[iDigi], PHA::DIG::EnableAutoDisarmACQ); connect(cbbAutoDisarmAcq[iDigi], &RComboBox::currentIndexChanged, this, [=](){ if( !enableSignalSlot ) return; //printf("%s %d %s \n", para.GetPara().c_str(), ch_index, cbb->currentData().toString().toStdString().c_str()); QString msg; msg = "DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + "|" + QString::fromStdString(PHA::DIG::EnableAutoDisarmACQ.GetPara()); msg += " = " + cbbAutoDisarmAcq[ID]->currentData().toString(); if( digi[ID]->WriteValue(PHA::DIG::EnableAutoDisarmACQ, cbbAutoDisarmAcq[ID]->currentData().toString().toStdString())){ SendLogMsg(msg + "|OK."); cbbAutoDisarmAcq[ID]->setStyleSheet(""); }else{ SendLogMsg(msg + "|Fail."); cbbAutoDisarmAcq[ID]->setStyleSheet("color:red;"); } }); //------------------------------------- rowId ++; SetupComboBox(cbbBusyIn[iDigi], PHA::DIG::BusyInSource, -1, false, "Busy In Source :", boardLayout, rowId, 0, 1, 2); QLabel * lbStatEvents = new QLabel("Stat. Event :", digiTab[iDigi]); lbStatEvents->setAlignment(Qt::AlignRight); boardLayout->addWidget(lbStatEvents, rowId, 4, 1, 2); cbbStatEvents[iDigi] = new RComboBox(digiTab[iDigi]); boardLayout->addWidget(cbbStatEvents[iDigi], rowId, 6); SetupShortComboBox(cbbStatEvents[iDigi], PHA::DIG::EnableStatisticEvents); connect(cbbStatEvents[iDigi], &RComboBox::currentIndexChanged, this, [=](){ if( !enableSignalSlot ) return; QString msg; msg = "DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + "|" + QString::fromStdString(PHA::DIG::EnableStatisticEvents.GetPara()); msg += " = " + cbbStatEvents[ID]->currentData().toString(); if( digi[ID]->WriteValue(PHA::DIG::EnableStatisticEvents, cbbStatEvents[ID]->currentData().toString().toStdString()) ){ SendLogMsg(msg + "|OK."); cbbStatEvents[ID]->setStyleSheet(""); }else{ SendLogMsg(msg + "|Fail."); cbbStatEvents[ID]->setStyleSheet("color:red"); } }); //------------------------------------- rowId ++; SetupComboBox(cbbSyncOut[iDigi], PHA::DIG::SyncOutMode, -1, false, "Sync Out mode :", boardLayout, rowId, 0, 1, 2); //------------------------------------- rowId ++; SetupComboBox(cbbBoardVetoSource[iDigi], PHA::DIG::BoardVetoSource, -1, false, "Board Veto Source :", boardLayout, rowId, 0, 1, 2); QLabel * lbBdVetoWidth = new QLabel("Board Veto Width [ns] :", digiTab[iDigi]); lbBdVetoWidth->setAlignment(Qt::AlignRight); boardLayout->addWidget(lbBdVetoWidth, rowId, 3, 1, 2); dsbBdVetoWidth[iDigi] = new RSpinBox(digiTab[iDigi], 0); // may be QDoubleSpinBox dsbBdVetoWidth[iDigi]->setMinimum(0); dsbBdVetoWidth[iDigi]->setMaximum(34359738360); dsbBdVetoWidth[iDigi]->setSingleStep(20); dsbBdVetoWidth[iDigi]->SetToolTip(); boardLayout->addWidget(dsbBdVetoWidth[iDigi], rowId, 5); connect(dsbBdVetoWidth[iDigi], &RSpinBox::valueChanged, this, [=](){ if( !enableSignalSlot ) return; dsbBdVetoWidth[ID]->setStyleSheet("color:blue;"); }); connect(dsbBdVetoWidth[iDigi], &RSpinBox::returnPressed, this, [=](){ if( !enableSignalSlot ) return; //printf("%s %d %d \n", para.GetPara().c_str(), ch_index, spb->value()); QString msg; msg = "DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + "|" + QString::fromStdString(PHA::DIG::BoardVetoWidth.GetPara()); msg += " = " + QString::number(dsbBdVetoWidth[iDigi]->value()); if( digi[ID]->WriteValue(PHA::DIG::BoardVetoWidth, std::to_string(dsbBdVetoWidth[iDigi]->value()), -1) ){ dsbBdVetoWidth[ID]->setStyleSheet(""); SendLogMsg(msg + "|OK."); }else{ dsbBdVetoWidth[ID]->setStyleSheet("color:red;"); SendLogMsg(msg + "|Fail."); } }); cbbBdVetoPolarity[iDigi] = new RComboBox(digiTab[iDigi]); boardLayout->addWidget(cbbBdVetoPolarity[iDigi], rowId, 6); SetupShortComboBox(cbbBdVetoPolarity[iDigi], PHA::DIG::BoardVetoPolarity); connect(cbbBdVetoPolarity[iDigi], &RComboBox::currentIndexChanged, this, [=](){ if( !enableSignalSlot ) return; QString msg; msg = "DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + "|" + QString::fromStdString(PHA::DIG::BoardVetoPolarity.GetPara()); msg += " = " + cbbBdVetoPolarity[ID]->currentData().toString(); if( digi[ID]->WriteValue(PHA::DIG::BoardVetoPolarity, cbbBdVetoPolarity[ID]->currentData().toString().toStdString()) ){ SendLogMsg(msg + "|OK."); cbbBdVetoPolarity[ID]->setStyleSheet(""); }else{ SendLogMsg(msg + "|Fail."); cbbBdVetoPolarity[ID]->setStyleSheet("color:red"); } }); //------------------------------------- rowId ++; SetupSpinBox(spbRunDelay[iDigi], PHA::DIG::RunDelay, -1, false, "Run Delay [ns] :", boardLayout, rowId, 0); //------------------------------------- QLabel * lbClockOutDelay = new QLabel("Temp. Clock Out Delay [ps] :", digiTab[iDigi]); lbClockOutDelay->setAlignment(Qt::AlignRight); boardLayout->addWidget(lbClockOutDelay, rowId, 3, 1, 2); dsbVolatileClockOutDelay[iDigi] = new RSpinBox(digiTab[iDigi], 3); dsbVolatileClockOutDelay[iDigi]->setMinimum(-18888.888); dsbVolatileClockOutDelay[iDigi]->setMaximum(18888.888); dsbVolatileClockOutDelay[iDigi]->setSingleStep(74.074); dsbVolatileClockOutDelay[iDigi]->setValue(0); dsbVolatileClockOutDelay[iDigi]->SetToolTip(); boardLayout->addWidget(dsbVolatileClockOutDelay[iDigi], rowId, 5); connect(dsbVolatileClockOutDelay[iDigi], &RSpinBox::valueChanged, this, [=](){ if( !enableSignalSlot ) return; dsbVolatileClockOutDelay[ID]->setStyleSheet("color:blue;"); }); connect(dsbVolatileClockOutDelay[iDigi], &RSpinBox::returnPressed, this, [=](){ if( !enableSignalSlot ) return; //printf("%s %d %d \n", para.GetPara().c_str(), ch_index, spb->value()); double step = dsbVolatileClockOutDelay[ID]->singleStep(); double value = dsbVolatileClockOutDelay[ID]->value(); dsbVolatileClockOutDelay[ID]->setValue( (std::round(value/step) * step) ); QString msg; msg = "DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + "|" + QString::fromStdString(PHA::DIG::VolatileClockOutDelay.GetPara()); msg += " = " + QString::number(dsbVolatileClockOutDelay[iDigi]->value()); if( digi[ID]->WriteValue(PHA::DIG::VolatileClockOutDelay, std::to_string(dsbVolatileClockOutDelay[ID]->value()), -1) ){ dsbVolatileClockOutDelay[ID]->setStyleSheet(""); SendLogMsg(msg + "|OK."); }else{ dsbVolatileClockOutDelay[ID]->setStyleSheet("color:red;"); SendLogMsg(msg + "|Fail."); } }); //------------------------------------- rowId ++; SetupComboBox(cbbIOLevel[iDigi], PHA::DIG::IO_Level, -1, false, "IO Level :", boardLayout, rowId, 0, 1, 2); QLabel * lbClockOutDelay2 = new QLabel("Perm. Clock Out Delay [ps] :", digiTab[iDigi]); lbClockOutDelay2->setAlignment(Qt::AlignRight); boardLayout->addWidget(lbClockOutDelay2, rowId, 3, 1, 2); dsbClockOutDelay[iDigi] = new RSpinBox(digiTab[iDigi], 3); dsbClockOutDelay[iDigi]->setMinimum(-18888.888); dsbClockOutDelay[iDigi]->setMaximum(18888.888); dsbClockOutDelay[iDigi]->setValue(0); dsbClockOutDelay[iDigi]->setSingleStep(74.074); dsbClockOutDelay[iDigi]->SetToolTip(); boardLayout->addWidget(dsbClockOutDelay[iDigi], rowId, 5); connect(dsbClockOutDelay[iDigi], &RSpinBox::valueChanged, this, [=](){ if( !enableSignalSlot ) return; dsbClockOutDelay[ID]->setStyleSheet("color:blue;"); }); connect(dsbClockOutDelay[iDigi], &RSpinBox::returnPressed, this, [=](){ if( !enableSignalSlot ) return; //printf("%s %d %d \n", para.GetPara().c_str(), ch_index, spb->value()); double step = dsbClockOutDelay[ID]->singleStep(); double value = dsbClockOutDelay[ID]->value(); dsbClockOutDelay[ID]->setValue( (std::round(value/step) * step) ); QString msg; msg = "DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + "|" + QString::fromStdString(PHA::DIG::PermanentClockOutDelay.GetPara()); msg += " = " + QString::number(dsbClockOutDelay[iDigi]->value()); if( digi[ID]->WriteValue(PHA::DIG::PermanentClockOutDelay, std::to_string(dsbClockOutDelay[ID]->value()), -1) ){ dsbClockOutDelay[ID]->setStyleSheet(""); SendLogMsg(msg + "|OK."); }else{ dsbClockOutDelay[ID]->setStyleSheet("color:red;"); SendLogMsg(msg + "|Fail."); } }); //------------------------------------- rowId ++; SetupComboBox(cbDACoutMode[iDigi], PHA::DIG::DACoutMode, -1, false, "DAC out Mode :", boardLayout, rowId, 0, 1, 2); //------------------------------------- rowId ++; SetupSpinBox(sbDACoutStaticLevel[iDigi], PHA::DIG::DACoutStaticLevel, -1, false, "DAC Static Lv. :", boardLayout, rowId, 0, 1, 2); //------------------------------------- rowId ++; SetupSpinBox(sbDACoutChSelect[iDigi], PHA::DIG::DACoutChSelect, -1, false, "DAC Channel :", boardLayout, rowId, 0, 1, 2); connect(cbDACoutMode[iDigi], &RComboBox::currentIndexChanged, this, [=](){ if( cbDACoutMode[iDigi]->currentData().toString().toStdString() == "Static" ) { sbDACoutStaticLevel[iDigi]->setEnabled(true); }else{ sbDACoutStaticLevel[iDigi]->setEnabled(false); } }); connect(cbDACoutMode[iDigi], &RComboBox::currentIndexChanged, this, [=](){ if( cbDACoutMode[iDigi]->currentData().toString().toStdString() == "ChInput" ) { sbDACoutChSelect[iDigi]->setEnabled(true); }else{ sbDACoutChSelect[iDigi]->setEnabled(false); } }); connect(cbDACoutMode[iDigi], &RComboBox::currentIndexChanged, this, [=](){ if( cbDACoutMode[iDigi]->currentData().toString().toStdString() == "Square" ) { bdTestPulse[iDigi]->setEnabled(true); }else{ if( ckbGlbTrgSource[iDigi][3]->isChecked() == false ) bdTestPulse[iDigi]->setEnabled(false); } }); } {//^====================== Test Pulse settings bdTestPulse[iDigi] = new QWidget(this); bdTab->addTab(bdTestPulse[iDigi], "Test Pulse"); QGridLayout * testPulseLayout = new QGridLayout(bdTestPulse[iDigi]); testPulseLayout->setAlignment(Qt::AlignTop | Qt::AlignLeft); testPulseLayout->setSpacing(2); SetupSpinBox(dsbTestPuslePeriod[iDigi], PHA::DIG::TestPulsePeriod, -1, false, "Period [ns] :", testPulseLayout, 0, 0); SetupSpinBox(dsbTestPusleWidth[iDigi], PHA::DIG::TestPulseWidth, -1, false, "Width [ns] :", testPulseLayout, 1, 0); SetupSpinBox(spbTestPusleLowLevel[iDigi], PHA::DIG::TestPulseLowLevel, -1, false, "Low Lvl. [LSB] :", testPulseLayout, 2, 0); SetupSpinBox(spbTestPusleHighLevel[iDigi], PHA::DIG::TestPulseHighLevel, -1, false, "High Lvl. [LSB] :", testPulseLayout, 3, 0); dsbTestPuslePeriod[iDigi]->setFixedWidth(100); dsbTestPusleWidth[iDigi]->setFixedWidth(100); spbTestPusleLowLevel[iDigi]->setFixedWidth(100); spbTestPusleHighLevel[iDigi]->setFixedWidth(100); QLabel * lblow = new QLabel("", bdTestPulse[iDigi]); lblow->setAlignment(Qt::AlignCenter); testPulseLayout->addWidget(lblow, 2, 2); QLabel * lbhigh = new QLabel("", bdTestPulse[iDigi]); lbhigh->setAlignment(Qt::AlignCenter); testPulseLayout->addWidget(lbhigh, 3, 2); connect(spbTestPusleLowLevel[iDigi], &RSpinBox::valueChanged, this, [=](){ double value = spbTestPusleLowLevel[iDigi]->value(); lblow->setText("approx. " + QString::number(value/0xffff*2 - 1, 'f', 2) + " V"); }); connect(spbTestPusleHighLevel[iDigi], &RSpinBox::valueChanged, this, [=](){ double value = spbTestPusleHighLevel[iDigi]->value(); lbhigh->setText("approx. " + QString::number(value/0xffff*2 - 1, 'f', 2) + " V"); }); } {//^====================== VGA settings bdVGA[iDigi] = new QWidget(this); bdTab->addTab(bdVGA[iDigi], "VGA Setting"); QGridLayout * vgaLayout = new QGridLayout(bdVGA[iDigi]); //vgaLayout->setVerticalSpacing(0); vgaLayout->setAlignment(Qt::AlignTop| Qt::AlignLeft); for( int k = 0; k < 4; k ++){ SetupSpinBox(VGA[iDigi][k], PHA::VGA::VGAGain, k, false, "VGA-" + QString::number(k) + " [dB] :", vgaLayout, k, 0); VGA[iDigi][k]->setSingleStep(0.5); VGA[iDigi][k]->setFixedWidth(100); VGA[iDigi][k]->SetToolTip(); } } {//^====================== ITL bdITL[iDigi] = new QWidget(this); bdTab->addTab(bdITL[iDigi], "ITL-A/B"); QGridLayout * ITLLayout = new QGridLayout(bdITL[iDigi]); ITLLayout->setAlignment(Qt::AlignTop); QGroupBox * gbITLA = new QGroupBox("ITL-A", bdITL[iDigi]); ITLLayout->addWidget(gbITLA, 0, 0); QGridLayout * aLayout = new QGridLayout(gbITLA); SetupComboBox(cbITLAMainLogic[iDigi], PHA::DIG::ITLAMainLogic, -1, false, "Main Logic", aLayout, 0, 0); SetupSpinBox( sbITLAMajority[iDigi], PHA::DIG::ITLAMajorityLev, -1, false, "Majority", aLayout, 1, 0); SetupComboBox(cbITLAPairLogic[iDigi], PHA::DIG::ITLAPairLogic, -1, false, "Pair Logic", aLayout, 2, 0); SetupComboBox(cbITLAPolarity[iDigi], PHA::DIG::ITLAPolarity, -1, false, "Polarity", aLayout, 3, 0); SetupSpinBox( sbITLAGateWidth[iDigi], PHA::DIG::ITLAGateWidth, -1, false, "Output GateWidth [ns]", aLayout, 4, 0); connect(cbITLAMainLogic[iDigi], &RComboBox::currentIndexChanged, this, [=](){ sbITLAMajority[iDigi]->setEnabled(cbITLAMainLogic[iDigi]->currentData().toString() == "Majority"); }); QGroupBox * gbITLB = new QGroupBox("ITL-B", bdITL[iDigi]); ITLLayout->addWidget(gbITLB, 0, 1); QGridLayout * bLayout = new QGridLayout(gbITLB); SetupComboBox(cbITLBMainLogic[iDigi], PHA::DIG::ITLBMainLogic, -1, false, "Main Logic", bLayout, 0, 0); SetupSpinBox( sbITLBMajority[iDigi], PHA::DIG::ITLBMajorityLev, -1, false, "Majority", bLayout, 1, 0); SetupComboBox(cbITLBPairLogic[iDigi], PHA::DIG::ITLBPairLogic, -1, false, "Pair Logic", bLayout, 2, 0); SetupComboBox(cbITLBPolarity[iDigi], PHA::DIG::ITLBPolarity, -1, false, "Polarity", bLayout, 3, 0); SetupSpinBox( sbITLBGateWidth[iDigi], PHA::DIG::ITLBGateWidth, -1, false, "Output GateWidth [ns]", bLayout, 4, 0); connect(cbITLBMainLogic[iDigi], &RComboBox::currentIndexChanged, this, [=](){ sbITLBMajority[iDigi]->setEnabled(cbITLBMainLogic[iDigi]->currentData().toString() == "Majority"); }); QGroupBox * gbITL = new QGroupBox("ITL-Connect", bdITL[iDigi]); ITLLayout->addWidget(gbITL, 1, 0, 1, 2); QGridLayout * cLayout = new QGridLayout(gbITL); for( int i = 0; i < 32; i++){ if( i % 3 == 0 || i == 31){ QLabel * haha = new QLabel(QString::number(i), bdITL[iDigi]); cLayout->addWidget(haha, 0, i + 1); } } QLabel * lb1 = new QLabel("ITL-A", bdITL[iDigi]); cLayout->addWidget(lb1, 1, 0, 2, 1); QLabel * lb2 = new QLabel("ITL-B", bdITL[iDigi]); cLayout->addWidget(lb2, 4, 0, 2, 1); QFrame *horizontalSeparator = new QFrame(); horizontalSeparator->setFrameShape(QFrame::HLine); horizontalSeparator->setFrameShadow(QFrame::Sunken); cLayout->addWidget(horizontalSeparator, 3, 0, 1, 33); for( int i = 0; i < 64; i++){ chITLConnect[iDigi][i][0] = new QPushButton(bdITL[iDigi]); chITLConnect[iDigi][i][0]->setFixedSize(15, 15); cLayout->addWidget(chITLConnect[iDigi][i][0], 1 + i/32, i%32 + 1); chITLConnect[iDigi][i][1] = new QPushButton(bdITL[iDigi]); chITLConnect[iDigi][i][1]->setFixedSize(15, 15); cLayout->addWidget(chITLConnect[iDigi][i][1], 4 + i/32, i%32 + 1); connect(chITLConnect[iDigi][i][0], &QPushButton::clicked, this, [=](){ //printf(" %d ch %d clicked, %d \n", iDigi, i, ITLConnectStatus[iDigi][i]); if( (ITLConnectStatus[iDigi][i] & 0x1) == 0 ){ ITLConnectStatus[iDigi][i] += 1; chITLConnect[iDigi][i][0]->setStyleSheet("background-color : green;"); if( ((ITLConnectStatus[iDigi][i] >> 1) & 0x1) == 1 ) { ITLConnectStatus[iDigi][i] -= 2; chITLConnect[iDigi][i][1]->setStyleSheet(""); } }else{ ITLConnectStatus[iDigi][i] -= 1; chITLConnect[iDigi][i][0]->setStyleSheet(""); } std::string value = "Disabled"; if( ITLConnectStatus[iDigi][i] == 1 ) value = "ITLA"; if( ITLConnectStatus[iDigi][i] == 2 ) value = "ITLB"; QString msg; msg = "DIG:" + QString::number(digi[ID]->GetNChannels()) + ",CH:" + QString::number(i) + "|" + QString::fromStdString(PHA::CH::ITLConnect.GetPara() ) + " = " + QString::fromStdString(value); if( digi[ID]->WriteValue(PHA::CH::ITLConnect, value, i) ){ SendLogMsg(msg + "|OK."); }else{ SendLogMsg(msg + "|Fail."); digi[ID]->ReadValue(PHA::CH::ITLConnect, i); chITLConnect[iDigi][i][0]->setStyleSheet("background-color : red;"); } }); connect(chITLConnect[iDigi][i][1], &QPushButton::clicked, this, [=](){ //printf(" %d ch %d clicked, %d \n", iDigi, i, ITLConnectStatus[iDigi][i]); if( ((ITLConnectStatus[iDigi][i] >> 1) & 0x1) == 0 ){ ITLConnectStatus[iDigi][i] += 2; chITLConnect[iDigi][i][1]->setStyleSheet("background-color : green;"); if( (ITLConnectStatus[iDigi][i] & 0x1) == 1 ) { ITLConnectStatus[iDigi][i] -= 1; chITLConnect[iDigi][i][0]->setStyleSheet(""); } }else{ ITLConnectStatus[iDigi][i] -= 2; chITLConnect[iDigi][i][1]->setStyleSheet(""); } std::string value = "Disabled"; if( ITLConnectStatus[iDigi][i] == 1 ) value = "ITLA"; if( ITLConnectStatus[iDigi][i] == 2 ) value = "ITLB"; QString msg; msg = "DIG:" + QString::number(digi[ID]->GetNChannels()) + ",CH:" + QString::number(i) + "|" + QString::fromStdString(PHA::CH::ITLConnect.GetPara() ) + " = " + QString::fromStdString(value); if( digi[ID]->WriteValue(PHA::CH::ITLConnect, value, i) ){ SendLogMsg(msg + "|OK."); }else{ SendLogMsg(msg + "|Fail."); digi[ID]->ReadValue(PHA::CH::ITLConnect, i); chITLConnect[iDigi][i][1]->setStyleSheet("background-color : red;"); } }); } } {//^====================== LVDS bdLVDS[iDigi] = new QWidget(this); bdTab->addTab(bdLVDS[iDigi], "LVDS"); QGridLayout * LVDSLayout = new QGridLayout(bdLVDS[iDigi]); LVDSLayout->setAlignment(Qt::AlignTop | Qt::AlignLeft); //LVDSLayout->setSpacing(2); for(int k = 0; k < 4; k ++){ SetupComboBox(cbLVDSMode[iDigi][k], PHA::LVDS::LVDSMode, k, false, "Ch-" + QString::number(16* k) + ":" + QString::number(16*(k+1)-1) + " Mode :", LVDSLayout, k, 0); SetupComboBox(cbLVDSDirection[iDigi][k], PHA::LVDS::LVDSDirection, k, false, "Direction :", LVDSLayout, k, 2); } QLabel * lbIOReg = new QLabel("Status :", bdLVDS[iDigi]); lbIOReg->setAlignment(Qt::AlignCenter | Qt::AlignRight); LVDSLayout->addWidget(lbIOReg, 4, 0); leLVDSIOReg[iDigi] = new QLineEdit(bdLVDS[iDigi]); LVDSLayout->addWidget(leLVDSIOReg[iDigi], 4, 1, 1, 3); connect(leLVDSIOReg[iDigi], &QLineEdit::textChanged, this, [=](){if( enableSignalSlot ) leLVDSIOReg[iDigi]->setStyleSheet("color: green;");}); connect(leLVDSIOReg[iDigi], &QLineEdit::returnPressed, this, [=](){ if( !enableSignalSlot ) return; std::string value = leLVDSIOReg[iDigi]->text().toStdString(); Reg para = PHA::DIG::LVDSIOReg; QString msg; msg = "DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + "|" + QString::fromStdString(para.GetPara()); msg += " = " + leLVDSIOReg[iDigi]->text(); if( digi[ID]->WriteValue(para, value)){ SendLogMsg(msg + "|OK."); leLVDSIOReg[iDigi]->setStyleSheet(""); UpdatePanelFromMemory(); UpdateOtherPanels(); }else{ SendLogMsg(msg + "|Fail."); leLVDSIOReg[iDigi]->setStyleSheet("color:red;"); } }); } {//^====================== Group = InputDelay if( digi[iDigi]->GetModelName() != "VX2730") { bdGroup[iDigi] = new QWidget(this); bdTab->addTab(bdGroup[iDigi], "Input Delay"); QGridLayout * groupLayout = new QGridLayout(bdGroup[iDigi]); groupLayout->setAlignment(Qt::AlignTop ); //LVDSLayout->setSpacing(2); for(int k = 0; k < MaxNumberOfGroup; k ++){ SetupSpinBox(spbInputDelay[iDigi][k], PHA::GROUP::InputDelay, k, false, "ch : " + QString::number(4*k) + " - " + QString::number(4*k+3) + " [ns] ", groupLayout, k/4, 2*(k%4)); } bdGroup[iDigi]->setEnabled(digi[iDigi]->GetCupVer() >= MIN_VERSION_GROUP); } } } {//^====================== Group channel settings QGroupBox * chBox = new QGroupBox("Channel Settings", digiTab[iDigi]); //chBox->setSizePolicy(sizePolicy); tabLayout_V2->addWidget(chBox); QGridLayout * chLayout = new QGridLayout(chBox); //chBox->setLayout(chLayout); chBox->setFixedWidth(900); chTabWidget[iDigi] = new QTabWidget(digiTab[iDigi]); chLayout->addWidget(chTabWidget[iDigi]); if( digi[iDigi]->GetFPGAType() == DPPType::PHA ) SetupPHAChannels(iDigi); if( digi[iDigi]->GetFPGAType() == DPPType::PSD ) SetupPSDChannels(iDigi); {//@============== Status tab QTabWidget * statusTab = new QTabWidget(digiTab[iDigi]); chTabWidget[iDigi]->addTab(statusTab, "Status"); QGridLayout * layout = new QGridLayout(statusTab); layout->setAlignment(Qt::AlignTop); layout->setSpacing(0); QLabel* lb0x = new QLabel("9-bit status", statusTab); lb0x->setAlignment(Qt::AlignHCenter); layout->addWidget(lb0x, 0, 1, 1, 9); QLabel* lb0a = new QLabel("Gain Fact.", statusTab); lb0a->setAlignment(Qt::AlignHCenter); layout->addWidget(lb0a, 0, 10); QLabel* lb1a = new QLabel("ADC->Volt", statusTab); lb1a->setAlignment(Qt::AlignHCenter); layout->addWidget(lb1a, 0, 11); QLabel* lb1x = new QLabel("9-bit status", statusTab); lb1x->setAlignment(Qt::AlignHCenter); layout->addWidget(lb1x, 0, 13, 1, 9); QLabel* lb0b = new QLabel("Gain Fact.", statusTab); lb0b->setAlignment(Qt::AlignHCenter); layout->addWidget(lb0b, 0, 22); QLabel* lb1b = new QLabel("ADC->Volt", statusTab); lb1b->setAlignment(Qt::AlignHCenter); layout->addWidget(lb1b, 0, 23); for( int ch = 0; ch < digi[iDigi]->GetNChannels(); ch ++){ QLabel * lb = new QLabel(" ch-" + QString::number(ch) + " ", statusTab); lb->setAlignment(Qt::AlignRight | Qt::AlignCenter); layout->addWidget(lb, 1 + ch/2, ch%2 * 12); for( int k = 0 ; k < 9; k++){ chStatus[iDigi][ch][k] = new QPushButton(statusTab); chStatus[iDigi][ch][k]->setEnabled(false); chStatus[iDigi][ch][k]->setFixedSize(QSize(10,25)); chStatus[iDigi][ch][k]->setToolTip(QString::number(k) + " - " + chToolTip[k]); chStatus[iDigi][ch][k]->setToolTipDuration(-1); layout->addWidget(chStatus[iDigi][ch][k], 1 + ch/2, ch%2 * 12 + 9 - k); // arrange backward, so that it is like a bit-wise } chGainFactor[iDigi][ch] = new QLineEdit(statusTab); chGainFactor[iDigi][ch]->setFixedWidth(100); layout->addWidget(chGainFactor[iDigi][ch], 1 + ch/2, ch%2*12 + 10); chADCToVolts[iDigi][ch] = new QLineEdit(statusTab); chADCToVolts[iDigi][ch]->setFixedWidth(100); layout->addWidget(chADCToVolts[iDigi][ch], 1 + ch/2, ch%2*12 + 11); } } {//@============== Trigger Mask/Map tab triggerMapTab[iDigi] = new QTabWidget(digiTab[iDigi]); chTabWidget[iDigi]->addTab(triggerMapTab[iDigi], "Trigger Map"); QGridLayout * triggerLayout = new QGridLayout(triggerMapTab[iDigi]); triggerLayout->setAlignment(Qt::AlignTop); int rowID = 0; //---------------------------- // SetupComboBox( cbAllEvtTrigger[iDigi], PHA::CH::EventTriggerSource, -1, false, "Event Trigger Source (all ch.)", triggerLayout, rowID, 0); // SetupComboBox( cbAllWaveTrigger[iDigi], PHA::CH::WaveTriggerSource, -1, false, "Wave Trigger Source (all ch.)", triggerLayout, rowID, 2); // //---------------------------- // rowID ++; // SetupComboBox( cbAllCoinMask[iDigi], PHA::CH::CoincidenceMask, -1, false, "Coincident Mask (all ch.)", triggerLayout, rowID, 0); // SetupSpinBox( sbAllCoinLength[iDigi], PHA::CH::CoincidenceLength, -1, false, "Coincident Length [ns] (all ch.)", triggerLayout, rowID, 2); // //---------------------------- // rowID ++; // SetupComboBox( cbAllAntiCoinMask[iDigi], PHA::CH::AntiCoincidenceMask, -1, false, "Anti-Coincident Mask (all ch.)", triggerLayout, rowID, 0); QSignalMapper * triggerMapper = new QSignalMapper(digiTab[iDigi]); connect(triggerMapper, &QSignalMapper::mappedInt, this, &DigiSettingsPanel::onTriggerClick); //---------------------------- rowID ++; QGroupBox * triggerBox = new QGroupBox("Trigger Mask", digiTab[iDigi]); triggerLayout->addWidget(triggerBox, rowID, 0, 1, 4); QGridLayout * tbLayout = new QGridLayout(triggerBox); tbLayout->setAlignment(Qt::AlignCenter | Qt::AlignTop); tbLayout->setSpacing(0); //---------------------------- rowID = 0; QLabel * instr1 = new QLabel("Reading: Column (C) represents a trigger channel for Row (R) channel.", digiTab[iDigi]); instr1->setAlignment(Qt::AlignLeft); tbLayout->addWidget(instr1, rowID, 0, 1, 64+15); rowID ++; QLabel * instr2 = new QLabel("For example, R3C1 = ch-3 trigger source is ch-1.", digiTab[iDigi]); instr2->setAlignment(Qt::AlignLeft); tbLayout->addWidget(instr2, rowID, 0, 1, 64+15); rowID ++; for( int j = 0; j < digi[iDigi]->GetNChannels(); j++){ if( j % 4 == 0) { QLabel * lllb = new QLabel(QString::number(j), digiTab[iDigi]); lllb->setAlignment(Qt::AlignLeft); tbLayout->addWidget(lllb, rowID , 1 + j + j/4, 1, 4); } } rowID ++; int colID = 0; for(int i = 0; i < digi[iDigi]->GetNChannels(); i++){ colID = 1; if( i % 4 == 0){ QLabel * lllba = new QLabel(QString::number(i), digiTab[iDigi]); lllba->setAlignment(Qt::AlignTop | Qt::AlignRight); tbLayout->addWidget(lllba, 3 + i + i/4, 0, 4, 1); } for(int j = 0; j < digi[iDigi]->GetNChannels(); j++){ trgMap[iDigi][i][j] = new QPushButton(digiTab[iDigi]); trgMap[iDigi][i][j]->setFixedSize(QSize(10,10)); trgMapClickStatus[iDigi][i][j] = false; tbLayout->addWidget(trgMap[iDigi][i][j], rowID, colID); triggerMapper->setMapping(trgMap[iDigi][i][j], (iDigi << 16) + (i << 8) + j); connect(trgMap[iDigi][i][j], SIGNAL(clicked()), triggerMapper, SLOT(map())); colID ++; if( j%4 == 3 && j!= digi[iDigi]->GetNChannels() - 1){ QFrame * vSeparator = new QFrame(digiTab[iDigi]); vSeparator->setFrameShape(QFrame::VLine); tbLayout->addWidget(vSeparator, rowID, colID); colID++; } } rowID++; if( i%4 == 3 && i != digi[iDigi]->GetNChannels() - 1){ QFrame * hSeparator = new QFrame(digiTab[iDigi]); hSeparator->setFrameShape(QFrame::HLine); tbLayout->addWidget(hSeparator, rowID, 1, 1, digi[iDigi]->GetNChannels() + 15); rowID++; } } } } //=== end of channel group } //=== end of digiTab[iDigi] {//^============================================== Inquiry / Copy Tab ICTab = new QTabWidget(this); tabWidget->addTab(ICTab, "Inquiry / Copy"); QVBoxLayout * layout1 = new QVBoxLayout(ICTab); layout1->setAlignment(Qt::AlignTop | Qt::AlignLeft); {//@============== low level inquiry icBox1 = new QGroupBox("Low Level Settings", ICTab); layout1->addWidget(icBox1); QGridLayout * inquiryLayout = new QGridLayout(icBox1); inquiryLayout->setAlignment(Qt::AlignTop | Qt::AlignLeft); //inquiryLayout->setSpacing(0); int rowID = 0; QLabel * info1 = new QLabel("This will read from the digitizer, save the setting to memory.", icBox1); inquiryLayout->addWidget(info1, rowID, 0, 1, 6); rowID ++; QLabel * info2 = new QLabel("The settings from Digitizer Tab will not reflect immedinately in here.", icBox1); inquiryLayout->addWidget(info2, rowID, 0, 1, 6); ///=========== header rowID ++; QLabel * hd0 = new QLabel("Digi. Value", icBox1); hd0->setAlignment(Qt::AlignCenter); inquiryLayout->addWidget(hd0, rowID, 3); QLabel * hd1 = new QLabel("Unit", icBox1); hd1->setAlignment(Qt::AlignCenter); inquiryLayout->addWidget(hd1, rowID, 4); QLabel * hd2 = new QLabel("<---------------------- Set Value ---------------------->", icBox1); hd2->setAlignment(Qt::AlignCenter); inquiryLayout->addWidget(hd2, rowID, 6, 1, 3); ///========================== board settings rowID ++; cbIQDigi = new RComboBox(ICTab); for( int i = 0; i < nDigi; i++) cbIQDigi->addItem("Digi-" + QString::number(digi[i]->GetSerialNumber()), i); inquiryLayout->addWidget(cbIQDigi, rowID, 0); connect( cbIQDigi, &RComboBox::currentIndexChanged, this, [=](int index){ enableSignalSlot = false; ID = index; cbIQCh->clear(); for( int i = 0; i < digi[index]->GetNChannels() ; i++ ) cbIQCh->addItem( "Ch-" + QString::number(i), i); cbBdSettings->clear(); cbChSettings->clear(); if( digi[ID]->GetFPGAType() == DPPType::PHA ){ for( int i = 0; i < (int) PHA::DIG::AllSettings.size(); i++ ){ cbBdSettings->addItem( QString::fromStdString( PHA::DIG::AllSettings[i].GetPara() ), i); } for( int i = 0; i < (int) PHA::CH::AllSettings.size(); i++ ){ cbChSettings->addItem( QString::fromStdString( PHA::CH::AllSettings[i].GetPara() ), i); } } if( digi[ID]->GetFPGAType() == DPPType::PSD ){ for( int i = 0; i < (int) PSD::DIG::AllSettings.size(); i++ ){ cbBdSettings->addItem( QString::fromStdString( PSD::DIG::AllSettings[i].GetPara() ), i); } for( int i = 0; i < (int) PSD::CH::AllSettings.size(); i++ ){ cbChSettings->addItem( QString::fromStdString( PSD::CH::AllSettings[i].GetPara() ), i); } } enableSignalSlot = true; }); cbBdSettings = new RComboBox(ICTab); if( digi[0]->GetFPGAType() == DPPType::PHA ){ for( int i = 0; i < (int) PHA::DIG::AllSettings.size(); i++ ){ cbBdSettings->addItem( QString::fromStdString( PHA::DIG::AllSettings[i].GetPara() ), i); } } if( digi[ID]->GetFPGAType() == DPPType::PSD ){ for( int i = 0; i < (int) PSD::DIG::AllSettings.size(); i++ ){ cbBdSettings->addItem( QString::fromStdString( PSD::DIG::AllSettings[i].GetPara() ), i); } } inquiryLayout->addWidget(cbBdSettings, rowID, 1); connect(cbBdSettings, &RComboBox::currentIndexChanged, this, &DigiSettingsPanel::ReadBoardSetting); leBdSettingsType = new QLineEdit("Read Only",ICTab); leBdSettingsType->setAlignment(Qt::AlignHCenter); leBdSettingsType->setFixedWidth(150); leBdSettingsType->setReadOnly(true); inquiryLayout->addWidget(leBdSettingsType, rowID, 2); leBdSettingsRead = new QLineEdit(ICTab); leBdSettingsRead->setAlignment(Qt::AlignRight); leBdSettingsRead->setFixedWidth(250); leBdSettingsRead->setReadOnly(true); inquiryLayout->addWidget(leBdSettingsRead, rowID, 3); leBdSettingsUnit = new QLineEdit("", ICTab); leBdSettingsUnit->setAlignment(Qt::AlignHCenter); leBdSettingsUnit->setFixedWidth(50); leBdSettingsUnit->setReadOnly(true); inquiryLayout->addWidget(leBdSettingsUnit, rowID, 4); QPushButton * bnRead = new QPushButton("Read", ICTab); inquiryLayout->addWidget(bnRead, rowID, 5, 2, 1); connect(bnRead, &QPushButton::clicked, this, [=](){ ReadBoardSetting(cbBdSettings->currentIndex()); ReadChannelSetting(cbChSettings->currentIndex()); }); cbBdAns = new RComboBox(ICTab); cbBdAns->setFixedWidth(200); inquiryLayout->addWidget(cbBdAns, rowID, 6); connect(cbBdAns, &RComboBox::currentIndexChanged, this, [=](){ if( !enableSignalSlot ) return; std::string value = cbBdAns->currentData().toString().toStdString(); leBdSettingsWrite->setText(QString::fromStdString(value)); leBdSettingsWrite->setStyleSheet(""); Reg para = PHA::DIG::AllSettings[cbBdSettings->currentIndex()]; ID = cbIQDigi->currentIndex(); QString msg; msg = "DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + "|" + QString::fromStdString(para.GetPara()); msg += " = " + cbBdAns->currentData().toString(); if( digi[ID]->WriteValue(para, value) ){ leBdSettingsRead->setText( QString::fromStdString(digi[ID]->GetSettingValueFromMemory(para))); SendLogMsg(msg + "|OK."); cbBdAns->setStyleSheet(""); UpdatePanelFromMemory(); UpdateOtherPanels(); }else{ leBdSettingsRead->setText("fail write value"); SendLogMsg(msg + "|Fail."); cbBdAns->setStyleSheet("color:red;"); } }); sbBdSettingsWrite = new RSpinBox(ICTab); sbBdSettingsWrite->setFixedWidth(200); inquiryLayout->addWidget(sbBdSettingsWrite, rowID, 7); connect(sbBdSettingsWrite, &RSpinBox::valueChanged, this, [=](){if( enableSignalSlot ) sbBdSettingsWrite->setStyleSheet("color: green;");}); connect(sbBdSettingsWrite, &RSpinBox::returnPressed, this, [=](){ if( !enableSignalSlot ) return; if( sbBdSettingsWrite->decimals() == 0 && sbBdSettingsWrite->singleStep() != 1) { double step = sbBdSettingsWrite->singleStep(); double value = sbBdSettingsWrite->value(); sbBdSettingsWrite->setValue( (std::round(value/step) * step) ); } Reg para = PHA::DIG::AllSettings[cbBdSettings->currentIndex()]; ID = cbIQDigi->currentIndex(); QString msg; msg = "DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + "|" + QString::fromStdString(para.GetPara()); msg += " = " + QString::number(sbBdSettingsWrite->value()); if( digi[ID]->WriteValue(para, std::to_string(sbBdSettingsWrite->value()))){ leBdSettingsRead->setText( QString::fromStdString(digi[ID]->GetSettingValueFromMemory(para))); SendLogMsg(msg + "|OK."); sbBdSettingsWrite->setStyleSheet(""); UpdatePanelFromMemory(); UpdateOtherPanels(); }else{ leBdSettingsRead->setText("fail write value"); SendLogMsg(msg + "|Fail."); sbBdSettingsWrite->setStyleSheet("color:red;"); } }); leBdSettingsWrite = new QLineEdit(ICTab); leBdSettingsWrite->setAlignment(Qt::AlignRight); leBdSettingsWrite->setFixedWidth(200); inquiryLayout->addWidget(leBdSettingsWrite, rowID, 8); connect(leBdSettingsWrite, &QLineEdit::textChanged, this, [=](){if( enableSignalSlot )leBdSettingsWrite->setStyleSheet("color: blue;");}); connect(leBdSettingsWrite, &QLineEdit::returnPressed, this, [=](){ if( !enableSignalSlot ) return; std::string value = leBdSettingsWrite->text().toStdString(); Reg para = PHA::DIG::AllSettings[cbBdSettings->currentIndex()]; ID = cbIQDigi->currentIndex(); QString msg; msg = "DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + "|" + QString::fromStdString(para.GetPara()); msg += " = " + QString::number(sbBdSettingsWrite->value()); if( digi[ID]->WriteValue(para, value)){ leBdSettingsRead->setText( QString::fromStdString(digi[ID]->GetSettingValueFromMemory(para))); SendLogMsg(msg + "|OK."); sbBdSettingsWrite->setStyleSheet(""); UpdatePanelFromMemory(); UpdateOtherPanels(); }else{ leBdSettingsRead->setText("fail write value"); SendLogMsg(msg + "|Fail."); sbBdSettingsWrite->setStyleSheet("color:red;"); } }); ///========================== Channels settings rowID ++; cbIQCh = new RComboBox(ICTab); cbIQCh->clear(); for( int i = 0; i < digi[0]->GetNChannels() ; i++) cbIQCh->addItem("Ch-" + QString::number(i), i); inquiryLayout->addWidget(cbIQCh, rowID, 0); connect(cbIQCh, &RComboBox::currentIndexChanged, this, [=](){ ReadChannelSetting(cbChSettings->currentIndex()); }); cbChSettings = new RComboBox(ICTab); if( digi[0]->GetFPGAType() == DPPType::PHA){ for( int i = 0; i < (int) PHA::CH::AllSettings.size(); i++ ){ cbChSettings->addItem( QString::fromStdString( PHA::CH::AllSettings[i].GetPara() ), i); } } if( digi[0]->GetFPGAType() == DPPType::PSD){ for( int i = 0; i < (int) PSD::CH::AllSettings.size(); i++ ){ cbChSettings->addItem( QString::fromStdString( PSD::CH::AllSettings[i].GetPara() ), i); } } inquiryLayout->addWidget(cbChSettings, rowID, 1); connect(cbChSettings, &RComboBox::currentIndexChanged, this, &DigiSettingsPanel::ReadChannelSetting); leChSettingsType = new QLineEdit("Read Only", ICTab); leChSettingsType->setAlignment(Qt::AlignHCenter); leChSettingsType->setFixedWidth(150); leChSettingsType->setReadOnly(true); inquiryLayout->addWidget(leChSettingsType, rowID, 2); leChSettingsRead = new QLineEdit(ICTab); leChSettingsRead->setAlignment(Qt::AlignRight); leChSettingsRead->setFixedWidth(250); leChSettingsRead->setReadOnly(true); inquiryLayout->addWidget(leChSettingsRead, rowID, 3); leChSettingsUnit = new QLineEdit(ICTab); leChSettingsUnit->setAlignment(Qt::AlignHCenter); leChSettingsUnit->setFixedWidth(50); leChSettingsUnit->setReadOnly(true); inquiryLayout->addWidget(leChSettingsUnit, rowID, 4); cbChSettingsWrite = new RComboBox(ICTab); cbChSettingsWrite->setFixedWidth(200); inquiryLayout->addWidget(cbChSettingsWrite, rowID, 6); connect(cbChSettingsWrite, &RComboBox::currentIndexChanged, this, [=](){ if( !enableSignalSlot ) return; std::string value = cbChSettingsWrite->currentData().toString().toStdString(); leChSettingsWrite->setText(QString::fromStdString(value)); leChSettingsWrite->setStyleSheet(""); Reg para = PHA::CH::AllSettings[cbChSettings->currentIndex()]; ID = cbIQDigi->currentIndex(); int ch_index = cbIQCh->currentIndex(); QString msg; msg = "DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + "|" + QString::fromStdString(para.GetPara()); msg += ",CH:" + QString::number(ch_index); msg += " = " + cbChSettingsWrite->currentData().toString(); if( digi[ID]->WriteValue(para, value, ch_index) ){ leChSettingsRead->setText( QString::fromStdString(digi[ID]->GetSettingValueFromMemory(para))); SendLogMsg(msg + "|OK."); cbChSettingsWrite->setStyleSheet(""); UpdatePanelFromMemory(); UpdateOtherPanels(); }else{ leChSettingsRead->setText("fail write value"); SendLogMsg(msg + "|Fail."); cbChSettingsWrite->setStyleSheet("color:red;"); } }); sbChSettingsWrite = new RSpinBox(ICTab); sbChSettingsWrite->setFixedWidth(200); inquiryLayout->addWidget(sbChSettingsWrite, rowID, 7); connect(sbChSettingsWrite, &RSpinBox::valueChanged, this, [=](){ if( enableSignalSlot ) sbChSettingsWrite->setStyleSheet("color: green;");}); connect(sbChSettingsWrite, &RSpinBox::returnPressed, this, [=](){ if( !enableSignalSlot ) return; if( sbChSettingsWrite->decimals() == 0 && sbChSettingsWrite->singleStep() != 1) { double step = sbChSettingsWrite->singleStep(); double value = sbChSettingsWrite->value(); sbChSettingsWrite->setValue( (std::round(value/step) * step) ); } Reg para = PHA::CH::AllSettings[cbChSettings->currentIndex()]; ID = cbIQDigi->currentIndex(); int ch_index = cbIQCh->currentIndex(); QString msg; msg = "DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + "|" + QString::fromStdString(para.GetPara()); msg += ",CH:" + QString::number(ch_index); msg += " = " + QString::number(sbChSettingsWrite->value()); if( digi[ID]->WriteValue(para, std::to_string(sbChSettingsWrite->value()), ch_index)){ leChSettingsRead->setText( QString::fromStdString(digi[ID]->GetSettingValueFromMemory(para))); SendLogMsg(msg + "|OK."); sbChSettingsWrite->setStyleSheet(""); UpdatePanelFromMemory(); UpdateOtherPanels(); }else{ leChSettingsRead->setText("fail write value"); SendLogMsg(msg + "|Fail."); sbChSettingsWrite->setStyleSheet("color:red;"); } }); leChSettingsWrite = new QLineEdit(ICTab); leChSettingsWrite->setFixedWidth(200); inquiryLayout->addWidget(leChSettingsWrite, rowID, 8); connect(leChSettingsWrite, &QLineEdit::textChanged, this, [=](){if( enableSignalSlot ) leChSettingsWrite->setStyleSheet("color: green;");}); connect(leChSettingsWrite, &QLineEdit::returnPressed, this, [=](){ if( !enableSignalSlot ) return; std::string value = leChSettingsWrite->text().toStdString(); Reg para = PHA::CH::AllSettings[cbChSettings->currentIndex()]; ID = cbIQDigi->currentIndex(); int ch_index = cbIQCh->currentIndex(); QString msg; msg = "DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + "|" + QString::fromStdString(para.GetPara()); msg += " = " + QString::number(sbChSettingsWrite->value()); if( digi[ID]->WriteValue(para, value, ch_index)){ leChSettingsRead->setText( QString::fromStdString(digi[ID]->GetSettingValueFromMemory(para))); SendLogMsg(msg + "|OK."); sbChSettingsWrite->setStyleSheet(""); UpdatePanelFromMemory(); UpdateOtherPanels(); }else{ leChSettingsRead->setText("fail write value"); SendLogMsg(msg + "|Fail."); sbChSettingsWrite->setStyleSheet("color:red;"); } }); for( int i = 0 ; i < inquiryLayout->count(); i++) inquiryLayout->setColumnStretch(i, 1); } {//@============== Copy setting icBox2 = new QGroupBox("Copy Settings", ICTab); layout1->addWidget(icBox2); QGridLayout * cpLayout = new QGridLayout(icBox2); cpLayout->setAlignment(Qt::AlignCenter | Qt::AlignLeft); ///================ QGroupBox * icBox2a = new QGroupBox("Copy From", icBox2); cpLayout->addWidget(icBox2a, 0, 0, 5, 1); QGridLayout * lo1 = new QGridLayout(icBox2a); cbCopyDigiFrom = new RComboBox(ICTab); for( int i = 0; i < nDigi; i++) cbCopyDigiFrom->addItem("Digi-" + QString::number(digi[i]->GetSerialNumber()), i); lo1->addWidget(cbCopyDigiFrom, 0, 0, 1, 8); connect(cbCopyDigiFrom, &RComboBox::currentIndexChanged, this, [=](int index){ CheckRadioAndCheckedButtons(); if( !CheckDigitizersCanCopy() ) { pbCopyChannel->setEnabled(false); return; } if( index == cbCopyDigiTo->currentIndex() ){ pbCopyBoard->setEnabled(false); pbCopyDigi->setEnabled(false); }else{ pbCopyBoard->setEnabled(true); pbCopyDigi->setEnabled(true); } }); int rowID = 0; for( int i = 0; i < digi[0]->GetNChannels(); i++) { if( i % 8 == 0) rowID ++; rbCopyChFrom[i] = new QRadioButton("Ch-" + QString::number(i), ICTab); lo1->addWidget(rbCopyChFrom[i], rowID, i%8); connect(rbCopyChFrom[i], &QRadioButton::clicked, this, &DigiSettingsPanel::CheckRadioAndCheckedButtons); } ///================ pbCopyChannel = new QPushButton("Copy Ch. Setting", ICTab); pbCopyChannel->setFixedSize(200, 50); cpLayout->addWidget(pbCopyChannel, 1, 1); pbCopyChannel->setEnabled(false); connect(pbCopyChannel, &QPushButton::clicked, this, [=](){ int chFromIndex = -1; for( int i = 0 ; i < MaxNumberOfChannel ; i++){ if( rbCopyChFrom[i]->isChecked() ){ chFromIndex = i; break; } } if( chFromIndex < 0 ) return; for( int i = 0; i < MaxNumberOfChannel; i++){ if( chkChTo[i]->isChecked() ) CopyChannelSettings(cbCopyDigiFrom->currentIndex(), chFromIndex, cbCopyDigiTo->currentIndex(), i ); } SendLogMsg("------ done"); }); pbCopyBoard = new QPushButton("Copy Board Settings", ICTab); pbCopyBoard->setFixedSize(200, 50); cpLayout->addWidget(pbCopyBoard, 2, 1); pbCopyBoard->setEnabled(false); connect(pbCopyBoard, &QPushButton::clicked, this, &DigiSettingsPanel::CopyBoardSettings); pbCopyDigi = new QPushButton("Copy Digitizer", ICTab); pbCopyDigi->setFixedSize(200, 50); cpLayout->addWidget(pbCopyDigi, 3, 1); pbCopyDigi->setEnabled(false); connect(pbCopyDigi, &QPushButton::clicked, this, &DigiSettingsPanel::CopyWholeDigitizer); ///================ QGroupBox * icBox2b = new QGroupBox("Copy To", icBox2); cpLayout->addWidget(icBox2b, 0, 2, 5, 1); QGridLayout * lo2 = new QGridLayout(icBox2b); cbCopyDigiTo = new RComboBox(ICTab); for( int i = 0; i < nDigi; i++) cbCopyDigiTo->addItem("Digi-" + QString::number(digi[i]->GetSerialNumber()), i); lo2->addWidget(cbCopyDigiTo, 0, 0, 1, 8); connect(cbCopyDigiTo, &RComboBox::currentIndexChanged, this, [=](int index){ CheckRadioAndCheckedButtons(); if( !CheckDigitizersCanCopy() ) { pbCopyChannel->setEnabled(false); return; } if( index == cbCopyDigiFrom->currentIndex() ){ pbCopyBoard->setEnabled(false); pbCopyDigi->setEnabled(false); }else{ pbCopyBoard->setEnabled(true); pbCopyDigi->setEnabled(true); } }); rowID = 0; for( int i = 0; i < digi[0]->GetNChannels(); i++) { if( i % 8 == 0) rowID ++; chkChTo[i] = new QCheckBox("ch-" + QString::number(i), ICTab); lo2->addWidget(chkChTo[i], rowID, i%8); connect(chkChTo[i], &QCheckBox::clicked, this, &DigiSettingsPanel::CheckRadioAndCheckedButtons); } cpLayout->setColumnStretch(0, 4); cpLayout->setColumnStretch(1, 1); cpLayout->setColumnStretch(2, 4); } } connect(tabWidget, &QTabWidget::currentChanged, this, [=](int index){ if( index < nDigi) { ID = index; UpdatePanelFromMemory(); }else{ ID = 0; } }); for( ID = 0; ID < nDigi; ID ++) EnableControl(); ID = 0; cbBdSettings->setCurrentText("ModelName"); cbChSettings->setCurrentIndex(10); show(); enableSignalSlot = true; } DigiSettingsPanel::~DigiSettingsPanel(){ //printf("%s\n", __func__); } void DigiSettingsPanel::SetupPHAChannels(unsigned short digiID){ //@.......... All Settings tab QWidget * tab_All = new QWidget(digiTab[digiID]); //tab_All->setStyleSheet("background-color: #EEEEEE"); chTabWidget[digiID]->addTab(tab_All, "All/Single Ch."); QGridLayout * allLayout = new QGridLayout(tab_All); allLayout->setAlignment(Qt::AlignTop); unsigned short ch = digi[digiID]->GetNChannels(); {//*--------- Group 0 box0[digiID] = new QGroupBox("Channel Selection", digiTab[digiID]); allLayout->addWidget(box0[digiID]); QGridLayout * layout0 = new QGridLayout(box0[digiID]); layout0->setAlignment(Qt::AlignLeft); QLabel * lbCh = new QLabel("Channel :", digiTab[digiID]); lbCh->setAlignment(Qt::AlignCenter | Qt::AlignRight); layout0->addWidget(lbCh, 0, 0); cbChPick[digiID] = new RComboBox(digiTab[digiID]); cbChPick[digiID]->addItem("All", -1); for( int i = 0; i < ch; i++) cbChPick[digiID]->addItem("Ch-" + QString::number(i), i); layout0->addWidget(cbChPick[digiID], 0, 1); connect(cbChPick[digiID], &RComboBox::currentIndexChanged, this, [=](){ int index = cbChPick[ID]->currentData().toInt(); if(index == -1) { UpdatePanelFromMemory(); return; }else{ enableSignalSlot = false; unsigned short ch = digi[digiID]->GetNChannels(); //printf("index = %d, ch = %d\n", index, ch); FillComboBoxValueFromMemory(cbbOnOff[ID][ch], PHA::CH::ChannelEnable, index); FillSpinBoxValueFromMemory(spbDCOffset[ID][ch], PHA::CH::DC_Offset, index); FillSpinBoxValueFromMemory(spbThreshold[ID][ch], PHA::CH::TriggerThreshold, index); FillComboBoxValueFromMemory(cbbParity[ID][ch], PHA::CH::Polarity, index); FillSpinBoxValueFromMemory(spbRecordLength[ID][ch], PHA::CH::RecordLength, index); FillSpinBoxValueFromMemory(spbPreTrigger[ID][ch], PHA::CH::PreTrigger, index); FillComboBoxValueFromMemory(cbbWaveSource[ID][ch], PHA::CH::WaveDataSource, index); FillComboBoxValueFromMemory(cbbWaveRes[ID][ch], PHA::CH::WaveResolution, index); FillComboBoxValueFromMemory(cbbWaveSave[ID][ch], PHA::CH::WaveSaving, index); FillComboBoxValueFromMemory(cbbAnaProbe0[ID][ch], PHA::CH::WaveAnalogProbe0, index); FillComboBoxValueFromMemory(cbbAnaProbe1[ID][ch], PHA::CH::WaveAnalogProbe1, index); FillComboBoxValueFromMemory(cbbDigProbe0[ID][ch], PHA::CH::WaveDigitalProbe0, index); FillComboBoxValueFromMemory(cbbDigProbe1[ID][ch], PHA::CH::WaveDigitalProbe1, index); FillComboBoxValueFromMemory(cbbDigProbe2[ID][ch], PHA::CH::WaveDigitalProbe2, index); FillComboBoxValueFromMemory(cbbDigProbe3[ID][ch], PHA::CH::WaveDigitalProbe3, index); FillComboBoxValueFromMemory(cbbEventSelector[ID][ch], PHA::CH::EventSelector, index); FillComboBoxValueFromMemory(cbbWaveSelector[ID][ch], PHA::CH::WaveSelector, index); FillSpinBoxValueFromMemory(spbEnergySkimLow[ID][ch], PHA::CH::EnergySkimLowDiscriminator, index); FillSpinBoxValueFromMemory(spbEnergySkimHigh[ID][ch], PHA::CH::EnergySkimHighDiscriminator, index); FillComboBoxValueFromMemory(cbbEvtTrigger[ID][ch], PHA::CH::EventTriggerSource, index); FillComboBoxValueFromMemory(cbbWaveTrigger[ID][ch], PHA::CH::WaveTriggerSource, index); FillComboBoxValueFromMemory(cbbChVetoSrc[ID][ch], PHA::CH::ChannelVetoSource, index); FillComboBoxValueFromMemory(cbbCoinMask[ID][ch], PHA::CH::CoincidenceMask, index); FillComboBoxValueFromMemory(cbbAntiCoinMask[ID][ch], PHA::CH::AntiCoincidenceMask, index); FillSpinBoxValueFromMemory(spbCoinLength[ID][ch], PHA::CH::CoincidenceLength, index); FillSpinBoxValueFromMemory(spbADCVetoWidth[ID][ch], PHA::CH::ADCVetoWidth, index); unsigned long mask = Utility::TenBase(digi[ID]->GetSettingValueFromMemory(PHA::CH::ChannelsTriggerMask, cbChPick[ID]->currentData().toInt())); leTriggerMask[ID][ch]->setText("0x" + QString::number(mask, 16).toUpper()); //-------- PHA FillSpinBoxValueFromMemory(spbInputRiseTime[ID][ch], PHA::CH::TimeFilterRiseTime, index); FillSpinBoxValueFromMemory(spbTriggerGuard[ID][ch], PHA::CH::TimeFilterRetriggerGuard, index); FillComboBoxValueFromMemory(cbbLowFilter[ID][ch], PHA::CH::EnergyFilterLowFreqFilter, index); FillSpinBoxValueFromMemory(spbTrapRiseTime[ID][ch], PHA::CH::EnergyFilterRiseTime, index); FillSpinBoxValueFromMemory(spbTrapFlatTop[ID][ch], PHA::CH::EnergyFilterFlatTop, index); FillSpinBoxValueFromMemory(spbTrapPoleZero[ID][ch], PHA::CH::EnergyFilterPoleZero, index); FillSpinBoxValueFromMemory(spbPeaking[ID][ch], PHA::CH::EnergyFilterPeakingPosition, index); FillSpinBoxValueFromMemory(spbBaselineGuard[ID][ch], PHA::CH::EnergyFilterBaselineGuard, index); FillSpinBoxValueFromMemory(spbPileupGuard[ID][ch], PHA::CH::EnergyFilterPileUpGuard, index); FillComboBoxValueFromMemory(cbbBaselineAvg[ID][ch], PHA::CH::EnergyFilterBaselineAvg, index); FillComboBoxValueFromMemory(cbbPeakingAvg[ID][ch], PHA::CH::EnergyFilterPeakingAvg, index); FillSpinBoxValueFromMemory(spbFineGain[ID][ch], PHA::CH::EnergyFilterFineGain, index); enableSignalSlot = true; } }); } int rowID = 0; {//*--------- Group 1 box1[digiID] = new QGroupBox("Input Settings", digiTab[digiID]); allLayout->addWidget(box1[digiID]); QGridLayout * layout1 = new QGridLayout(box1[digiID]); rowID = 0; SetupComboBox(cbbOnOff[digiID][ch], PHA::CH::ChannelEnable, -1, true, "On/Off", layout1, rowID, 0); SetupComboBox(cbbWaveSource[digiID][ch], PHA::CH::WaveDataSource, -1, true, "Wave Data Source", layout1, rowID, 2); rowID ++; SetupComboBox(cbbWaveRes[digiID][ch], PHA::CH::WaveResolution, -1, true, "Wave Resol.", layout1, rowID, 0); SetupComboBox(cbbWaveSave[digiID][ch], PHA::CH::WaveSaving, -1, true, "Wave Save", layout1, rowID, 2); rowID ++; SetupSpinBox(spbDCOffset[digiID][ch], PHA::CH::DC_Offset, -1, true, "DC Offset [%]", layout1, rowID, 0); SetupSpinBox(spbThreshold[digiID][ch], PHA::CH::TriggerThreshold, -1, true, "Threshold [LSB]", layout1, rowID, 2); rowID ++; SetupSpinBox(spbRecordLength[digiID][ch], PHA::CH::RecordLength, -1, true, "Record Length [ns]", layout1, rowID, 0); SetupSpinBox(spbPreTrigger[digiID][ch], PHA::CH::PreTrigger, -1, true, "Pre Trigger [ns]", layout1, rowID, 2); rowID ++; SetupComboBox(cbbParity[digiID][ch], PHA::CH::Polarity, -1, true, "Parity", layout1, rowID, 0); SetupComboBox(cbbLowFilter[digiID][ch], PHA::CH::EnergyFilterLowFreqFilter, -1, true, "Low Freq. Filter", layout1, rowID, 2); rowID ++; SetupSpinBox(spbInputRiseTime[digiID][ch], PHA::CH::TimeFilterRiseTime, -1, true, "Input Rise Time [ns]", layout1, rowID, 0); SetupSpinBox(spbTriggerGuard[digiID][ch], PHA::CH::TimeFilterRetriggerGuard, -1, true, "Trigger Guard [ns]", layout1, rowID, 2); } {//*--------- Group 2 box3[digiID] = new QGroupBox("Trap. Settings", digiTab[digiID]); allLayout->addWidget(box3[digiID]); QGridLayout * layout3 = new QGridLayout(box3[digiID]); //------------------------------ rowID = 0; SetupSpinBox(spbTrapRiseTime[digiID][ch], PHA::CH::EnergyFilterRiseTime, -1, true, "Trap. Rise Time [ns]", layout3, rowID, 0); SetupSpinBox(spbTrapFlatTop[digiID][ch], PHA::CH::EnergyFilterFlatTop, -1, true, "Trap. Flat Top [ns]", layout3, rowID, 2); SetupSpinBox(spbTrapPoleZero[digiID][ch], PHA::CH::EnergyFilterPoleZero, -1, true, "Trap. Pole Zero [ns]", layout3, rowID, 4); //------------------------------ rowID ++; SetupSpinBox(spbPeaking[digiID][ch], PHA::CH::EnergyFilterPeakingPosition, -1, true, "Peaking [%]", layout3, rowID, 0); SetupSpinBox(spbBaselineGuard[digiID][ch], PHA::CH::EnergyFilterBaselineGuard, -1, true, "Baseline Guard [ns]", layout3, rowID, 2); SetupSpinBox(spbPileupGuard[digiID][ch], PHA::CH::EnergyFilterPileUpGuard, -1, true, "Pile-up Guard [ns]", layout3, rowID, 4); //------------------------------ rowID ++; SetupComboBox(cbbPeakingAvg[digiID][ch], PHA::CH::EnergyFilterPeakingAvg, -1, true, "Peak Avg", layout3, rowID, 0); SetupComboBox(cbbBaselineAvg[digiID][ch], PHA::CH::EnergyFilterBaselineAvg, -1, true, "Baseline Avg", layout3, rowID, 2); SetupSpinBox(spbFineGain[digiID][ch], PHA::CH::EnergyFilterFineGain, -1, true, "Fine Gain", layout3, rowID, 4); } {//*--------- Group 3 box4[digiID] = new QGroupBox("Probe Settings", digiTab[digiID]); allLayout->addWidget(box4[digiID]); QGridLayout * layout4 = new QGridLayout(box4[digiID]); //------------------------------ rowID = 0; SetupComboBox(cbbAnaProbe0[digiID][ch], PHA::CH::WaveAnalogProbe0, -1, true, "Analog Prob. 0", layout4, rowID, 0, 1, 2); SetupComboBox(cbbAnaProbe1[digiID][ch], PHA::CH::WaveAnalogProbe1, -1, true, "Analog Prob. 1", layout4, rowID, 3, 1, 2); //------------------------------ rowID ++; SetupComboBox(cbbDigProbe0[digiID][ch], PHA::CH::WaveDigitalProbe0, -1, true, "Digitial Prob. 0", layout4, rowID, 0, 1, 2); SetupComboBox(cbbDigProbe1[digiID][ch], PHA::CH::WaveDigitalProbe1, -1, true, "Digitial Prob. 1", layout4, rowID, 3, 1, 2); //------------------------------ rowID ++; SetupComboBox(cbbDigProbe2[digiID][ch], PHA::CH::WaveDigitalProbe2, -1, true, "Digitial Prob. 2", layout4, rowID, 0, 1, 2); SetupComboBox(cbbDigProbe3[digiID][ch], PHA::CH::WaveDigitalProbe3, -1, true, "Digitial Prob. 3", layout4, rowID, 3, 1, 2); } {//*--------- Group 4 box5[digiID] = new QGroupBox("Trigger Settings", digiTab[digiID]); allLayout->addWidget(box5[digiID]); QGridLayout * layout5 = new QGridLayout(box5[digiID]); //------------------------------ rowID = 0; SetupComboBox(cbbEvtTrigger[digiID][ch], PHA::CH::EventTriggerSource, -1, true, "Event Trig. Source", layout5, rowID, 0); SetupComboBox(cbbWaveTrigger[digiID][ch], PHA::CH::WaveTriggerSource, -1, true, "Wave Trig. Source", layout5, rowID, 2); //------------------------------ rowID ++; SetupComboBox(cbbChVetoSrc[digiID][ch], PHA::CH::ChannelVetoSource, -1, true, "Veto Source", layout5, rowID, 0); QLabel * lbTrgMsk = new QLabel("Trigger Mask"); lbTrgMsk->setAlignment(Qt::AlignRight | Qt::AlignCenter); layout5->addWidget(lbTrgMsk, rowID, 2); leTriggerMask[digiID][ch] = new QLineEdit(this); leTriggerMask[digiID][ch]->setToolTip("Both Hex or Dec is OK."); layout5->addWidget(leTriggerMask[digiID][ch], rowID, 3); connect(leTriggerMask[digiID][ch], &QLineEdit::textChanged, this, [=](){ if( !enableSignalSlot ) return; leTriggerMask[digiID][ch]->setStyleSheet("color:blue;"); }); connect(leTriggerMask[digiID][ch], &QLineEdit::returnPressed, this, [=](){ if( !enableSignalSlot ) return; int index = cbChPick[ID]->currentData().toInt(); QString SixteenBaseValue = "0x" + QString::number(Utility::TenBase(leTriggerMask[ID][ch]->text().toStdString()), 16).toUpper(); leTriggerMask[ID][ch]->setText(SixteenBaseValue); QString msg; msg = "DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + "|" + QString::fromStdString(PHA::CH::ChannelsTriggerMask.GetPara()) ; msg += ",CH:" + (index == -1 ? "All" : QString::number(index)); msg += " = " + SixteenBaseValue; if( digi[ID]->WriteValue(PHA::CH::ChannelsTriggerMask, SixteenBaseValue.toStdString(), index)){ SendLogMsg(msg + "|OK."); leTriggerMask[ID][ch]->setStyleSheet(""); UpdatePanelFromMemory(); UpdateOtherPanels(); }else{ SendLogMsg(msg + "|Fail."); leTriggerMask[ID][ch]->setStyleSheet("color:red;"); } }); //------------------------------ rowID ++; SetupComboBox(cbbCoinMask[digiID][ch], PHA::CH::CoincidenceMask, -1, true, "Coin. Mask", layout5, rowID, 0); SetupComboBox(cbbAntiCoinMask[digiID][ch], PHA::CH::AntiCoincidenceMask, -1, true, "Anti-Coin. Mask", layout5, rowID, 2); //------------------------------ rowID ++; SetupSpinBox(spbCoinLength[digiID][ch], PHA::CH::CoincidenceLength, -1, true, "Coin. Length [ns]", layout5, rowID, 0); SetupSpinBox(spbADCVetoWidth[digiID][ch], PHA::CH::ADCVetoWidth, -1, true, "ADC Veto Length [ns]", layout5, rowID, 2); for( int i = 0; i < layout5->columnCount(); i++) layout5->setColumnStretch(i, 1); } {//*--------- Group 5 box6[digiID] = new QGroupBox("Other Settings", digiTab[digiID]); allLayout->addWidget(box6[digiID]); QGridLayout * layout6 = new QGridLayout(box6[digiID]); //------------------------------ rowID = 0 ; SetupComboBox(cbbEventSelector[digiID][ch], PHA::CH::EventSelector, -1, true, "Event Selector", layout6, rowID, 0); SetupComboBox(cbbWaveSelector[digiID][ch], PHA::CH::WaveSelector, -1, true, "Wave Selector", layout6, rowID, 2); //------------------------------ rowID ++; SetupSpinBox(spbEnergySkimLow[digiID][ch], PHA::CH::EnergySkimLowDiscriminator, -1, true, "Energy Skim Low", layout6, rowID, 0); SetupSpinBox(spbEnergySkimHigh[digiID][ch], PHA::CH::EnergySkimHighDiscriminator, -1, true, "Energy Skim High", layout6, rowID, 2); } {//@============== input tab inputTab[digiID] = new QTabWidget(digiTab[digiID]); chTabWidget[digiID]->addTab(inputTab[digiID], "Input"); SetupComboBoxTab(cbbOnOff, PHA::CH::ChannelEnable, "On/Off", inputTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupComboBoxTab(cbbWaveSource, PHA::CH::WaveDataSource, "Wave Data Dource", inputTab[digiID], digiID, digi[digiID]->GetNChannels(), 2); SetupComboBoxTab(cbbWaveRes, PHA::CH::WaveResolution, "Wave Resol.", inputTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupComboBoxTab(cbbWaveSave, PHA::CH::WaveSaving, "Wave Save", inputTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbDCOffset, PHA::CH::DC_Offset, "DC Offset [%]", inputTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbThreshold, PHA::CH::TriggerThreshold, "Threshold [LSB]", inputTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbRecordLength, PHA::CH::RecordLength, "Record Length [ns]", inputTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbPreTrigger, PHA::CH::PreTrigger, "PreTrigger [ns]", inputTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupComboBoxTab(cbbParity, PHA::CH::Polarity, "Parity", inputTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbInputRiseTime, PHA::CH::TimeFilterRiseTime, "Input Rise Time [ns]", inputTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbTriggerGuard, PHA::CH::TimeFilterRetriggerGuard, "Trigger Guard [ns]", inputTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupComboBoxTab(cbbLowFilter, PHA::CH::EnergyFilterLowFreqFilter, "Low Freq. Filter", inputTab[digiID], digiID, digi[digiID]->GetNChannels()); for( int ch = 0; ch < digi[digiID]->GetNChannels(); ch++){ //Set color of some combox cbbOnOff[digiID][ch]->setItemData(1, QBrush(orangeColor), Qt::ForegroundRole); connect(cbbOnOff[digiID][ch], &RComboBox::currentIndexChanged, this, [=](int index){ cbbOnOff[ID][ch]->setStyleSheet(index == 1 ? "color : orange;" : "");}); cbbParity[digiID][ch]->setItemData(1, QBrush(orangeColor), Qt::ForegroundRole); connect(cbbParity[digiID][ch], &RComboBox::currentIndexChanged, this, [=](int index){ cbbParity[ID][ch]->setStyleSheet(index == 1 ? "color : orange;" : "");}); cbbLowFilter[digiID][ch]->setItemData(1, QBrush(orangeColor), Qt::ForegroundRole); connect(cbbLowFilter[digiID][ch], &RComboBox::currentIndexChanged, this, [=](int index){ cbbLowFilter[ID][ch]->setStyleSheet(index == 1 ? "color : orange;": "");}); } } {//@============== Trap tab trapTab[digiID] = new QTabWidget(digiTab[digiID]); chTabWidget[digiID]->addTab(trapTab[digiID], "Trapezoid"); SetupSpinBoxTab(spbTrapRiseTime, PHA::CH::EnergyFilterRiseTime, "Trap. Rise Time [ns]", trapTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbTrapFlatTop, PHA::CH::EnergyFilterFlatTop, "Trap. Flat Top [ns]", trapTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbTrapPoleZero, PHA::CH::EnergyFilterPoleZero, "Trap. Pole Zero [ns]", trapTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbPeaking, PHA::CH::EnergyFilterPeakingPosition, "Peaking [%]", trapTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupComboBoxTab(cbbPeakingAvg, PHA::CH::EnergyFilterPeakingAvg, "Peak Avg.", trapTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupComboBoxTab(cbbBaselineAvg, PHA::CH::EnergyFilterBaselineAvg, "Baseline Avg.", trapTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbFineGain, PHA::CH::EnergyFilterFineGain, "Fine Gain", trapTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbBaselineGuard, PHA::CH::EnergyFilterBaselineGuard, "Baseline Guard [ns]", trapTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbPileupGuard, PHA::CH::EnergyFilterPileUpGuard, "Pile-up Guard [ns]", trapTab[digiID], digiID, digi[digiID]->GetNChannels()); } {//@============== Probe tab probeTab[digiID] = new QTabWidget(digiTab[digiID]); chTabWidget[digiID]->addTab(probeTab[digiID], "Probe"); SetupComboBoxTab(cbbAnaProbe0, PHA::CH::WaveAnalogProbe0, "Analog Prob. 0", probeTab[digiID], digiID, digi[digiID]->GetNChannels(), 4); SetupComboBoxTab(cbbAnaProbe1, PHA::CH::WaveAnalogProbe1, "Analog Prob. 1", probeTab[digiID], digiID, digi[digiID]->GetNChannels(), 4); SetupComboBoxTab(cbbDigProbe0, PHA::CH::WaveDigitalProbe0, "Digital Prob. 0", probeTab[digiID], digiID, digi[digiID]->GetNChannels(), 4); SetupComboBoxTab(cbbDigProbe1, PHA::CH::WaveDigitalProbe1, "Digital Prob. 1", probeTab[digiID], digiID, digi[digiID]->GetNChannels(), 4); SetupComboBoxTab(cbbDigProbe2, PHA::CH::WaveDigitalProbe2, "Digital Prob. 2", probeTab[digiID], digiID, digi[digiID]->GetNChannels(), 4); SetupComboBoxTab(cbbDigProbe3, PHA::CH::WaveDigitalProbe3, "Digital Prob. 3", probeTab[digiID], digiID, digi[digiID]->GetNChannels(), 4); } {//@============== Other tab otherTab[digiID] = new QTabWidget(digiTab[digiID]); chTabWidget[digiID]->addTab(otherTab[digiID], "Others"); SetupComboBoxTab(cbbEventSelector, PHA::CH::EventSelector, "Event Selector", otherTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupComboBoxTab(cbbWaveSelector, PHA::CH::WaveSelector, "Wave Selector", otherTab[digiID], digiID, digi[digiID]->GetNChannels(), 2 ); SetupSpinBoxTab(spbEnergySkimLow, PHA::CH::EnergySkimLowDiscriminator, "Energy Skim Low", otherTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbEnergySkimHigh, PHA::CH::EnergySkimHighDiscriminator, "Energy Skim High", otherTab[digiID], digiID, digi[digiID]->GetNChannels()); } {//@============== Trigger tab triggerTab[digiID] = new QTabWidget(digiTab[digiID]); chTabWidget[digiID]->addTab(triggerTab[digiID], "Trigger"); SetupComboBoxTab(cbbEvtTrigger, PHA::CH::EventTriggerSource, "Event Trig. Source", triggerTab[digiID], digiID, digi[digiID]->GetNChannels(), 2); SetupComboBoxTab(cbbWaveTrigger, PHA::CH::WaveTriggerSource, "Wave Trig. Source", triggerTab[digiID], digiID, digi[digiID]->GetNChannels(), 2); SetupComboBoxTab(cbbChVetoSrc, PHA::CH::ChannelVetoSource, "Veto Source", triggerTab[digiID], digiID, digi[digiID]->GetNChannels(), 2); SetupComboBoxTab(cbbCoinMask, PHA::CH::CoincidenceMask, "Coin. Mask", triggerTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupComboBoxTab(cbbAntiCoinMask, PHA::CH::AntiCoincidenceMask, "Anti-Coin. Mask", triggerTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbCoinLength, PHA::CH::CoincidenceLength, "Coin. Length [ns]", triggerTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbADCVetoWidth, PHA::CH::ADCVetoWidth, "ADC Veto Length [ns]", triggerTab[digiID], digiID, digi[digiID]->GetNChannels()); } for( int ch = 0; ch < digi[ID]->GetNChannels() + 1; ch++) { //----- SyncBox connect(cbbOnOff[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbOnOff, ch);}); connect(spbDCOffset[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbDCOffset, ch);}); connect(spbThreshold[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbThreshold, ch);}); connect(cbbParity[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbParity, ch);}); connect(spbRecordLength[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbRecordLength, ch);}); connect(spbPreTrigger[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbPreTrigger, ch);}); connect(cbbWaveSource[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbWaveSource, ch);}); connect(cbbWaveRes[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbWaveRes, ch);}); connect(cbbWaveSave[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbWaveSave, ch);}); connect(cbbAnaProbe0[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbAnaProbe0, ch);}); connect(cbbAnaProbe1[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbAnaProbe1, ch);}); connect(cbbDigProbe0[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbDigProbe0, ch);}); connect(cbbDigProbe1[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbDigProbe1, ch);}); connect(cbbDigProbe2[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbDigProbe2, ch);}); connect(cbbDigProbe3[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbDigProbe3, ch);}); connect(cbbEventSelector[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbEventSelector, ch);}); connect(cbbWaveSelector[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbWaveSelector, ch);}); connect(spbEnergySkimLow[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbEnergySkimLow, ch);}); connect(spbEnergySkimHigh[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbEnergySkimHigh, ch);}); connect(cbbEvtTrigger[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbEvtTrigger, ch);}); connect(cbbWaveTrigger[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbWaveTrigger, ch);}); connect(cbbChVetoSrc[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbChVetoSrc, ch);}); connect(cbbCoinMask[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbCoinMask, ch);}); connect(cbbAntiCoinMask[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbAntiCoinMask, ch);}); connect(spbCoinLength[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbCoinLength, ch);}); connect(spbADCVetoWidth[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbADCVetoWidth, ch);}); connect(spbInputRiseTime[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbInputRiseTime, ch);}); connect(spbTriggerGuard[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbTriggerGuard, ch);}); connect(cbbLowFilter[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbLowFilter, ch);}); connect(spbTrapRiseTime[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbTrapRiseTime, ch);}); connect(spbTrapFlatTop[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbTrapFlatTop, ch);}); connect(spbTrapPoleZero[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbTrapPoleZero, ch);}); connect(spbPeaking[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbPeaking, ch);}); connect(spbBaselineGuard[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbBaselineGuard, ch);}); connect(spbPileupGuard[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbPileupGuard, ch);}); connect(cbbBaselineAvg[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbBaselineAvg, ch);}); connect(cbbPeakingAvg[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbPeakingAvg, ch);}); connect(spbFineGain[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbFineGain, ch);}); spbFineGain[digiID][ch]->setSingleStep(0.001); spbFineGain[digiID][ch]->setDecimals(3); } } void DigiSettingsPanel::SetupPSDChannels(unsigned short digiID){ //@.......... All Settings tab QWidget * tab_All = new QWidget(digiTab[digiID]); //tab_All->setStyleSheet("background-color: #EEEEEE"); chTabWidget[digiID]->addTab(tab_All, "All/Single Ch."); QGridLayout * allLayout = new QGridLayout(tab_All); allLayout->setAlignment(Qt::AlignTop); unsigned short ch = digi[digiID]->GetNChannels(); {//*--------- Group 0 box0[digiID] = new QGroupBox("Channel Selection", digiTab[digiID]); allLayout->addWidget(box0[digiID]); QGridLayout * layout0 = new QGridLayout(box0[digiID]); layout0->setAlignment(Qt::AlignLeft); QLabel * lbCh = new QLabel("Channel :", digiTab[digiID]); lbCh->setAlignment(Qt::AlignCenter | Qt::AlignRight); layout0->addWidget(lbCh, 0, 0); cbChPick[digiID] = new RComboBox(digiTab[digiID]); cbChPick[digiID]->addItem("All", -1); for( int i = 0; i < ch; i++) cbChPick[digiID]->addItem("Ch-" + QString::number(i), i); layout0->addWidget(cbChPick[digiID], 0, 1); connect(cbChPick[digiID], &RComboBox::currentIndexChanged, this, [=](){ int index = cbChPick[ID]->currentData().toInt(); if(index == -1) { UpdatePanelFromMemory(); return; }else{ enableSignalSlot = false; unsigned short ch = digi[digiID]->GetNChannels(); //printf("index = %d, ch = %d\n", index, ch); FillComboBoxValueFromMemory(cbbOnOff[ID][ch], PHA::CH::ChannelEnable, index); FillSpinBoxValueFromMemory(spbDCOffset[ID][ch], PHA::CH::DC_Offset, index); FillSpinBoxValueFromMemory(spbThreshold[ID][ch], PHA::CH::TriggerThreshold, index); FillComboBoxValueFromMemory(cbbParity[ID][ch], PHA::CH::Polarity, index); FillSpinBoxValueFromMemory(spbRecordLength[ID][ch], PHA::CH::RecordLength, index); FillSpinBoxValueFromMemory(spbPreTrigger[ID][ch], PHA::CH::PreTrigger, index); FillComboBoxValueFromMemory(cbbWaveSource[ID][ch], PHA::CH::WaveDataSource, index); FillComboBoxValueFromMemory(cbbWaveRes[ID][ch], PHA::CH::WaveResolution, index); FillComboBoxValueFromMemory(cbbWaveSave[ID][ch], PHA::CH::WaveSaving, index); FillComboBoxValueFromMemory(cbbAnaProbe0[ID][ch], PHA::CH::WaveAnalogProbe0, index); FillComboBoxValueFromMemory(cbbAnaProbe1[ID][ch], PHA::CH::WaveAnalogProbe1, index); FillComboBoxValueFromMemory(cbbDigProbe0[ID][ch], PHA::CH::WaveDigitalProbe0, index); FillComboBoxValueFromMemory(cbbDigProbe1[ID][ch], PHA::CH::WaveDigitalProbe1, index); FillComboBoxValueFromMemory(cbbDigProbe2[ID][ch], PHA::CH::WaveDigitalProbe2, index); FillComboBoxValueFromMemory(cbbDigProbe3[ID][ch], PHA::CH::WaveDigitalProbe3, index); FillComboBoxValueFromMemory(cbbEventSelector[ID][ch], PHA::CH::EventSelector, index); FillComboBoxValueFromMemory(cbbWaveSelector[ID][ch], PHA::CH::WaveSelector, index); FillSpinBoxValueFromMemory(spbEnergySkimLow[ID][ch], PHA::CH::EnergySkimLowDiscriminator, index); FillSpinBoxValueFromMemory(spbEnergySkimHigh[ID][ch], PHA::CH::EnergySkimHighDiscriminator, index); FillComboBoxValueFromMemory(cbbEvtTrigger[ID][ch], PHA::CH::EventTriggerSource, index); FillComboBoxValueFromMemory(cbbWaveTrigger[ID][ch], PHA::CH::WaveTriggerSource, index); FillComboBoxValueFromMemory(cbbChVetoSrc[ID][ch], PHA::CH::ChannelVetoSource, index); FillComboBoxValueFromMemory(cbbCoinMask[ID][ch], PHA::CH::CoincidenceMask, index); FillComboBoxValueFromMemory(cbbAntiCoinMask[ID][ch], PHA::CH::AntiCoincidenceMask, index); FillSpinBoxValueFromMemory(spbCoinLength[ID][ch], PHA::CH::CoincidenceLength, index); FillSpinBoxValueFromMemory(spbADCVetoWidth[ID][ch], PHA::CH::ADCVetoWidth, index); unsigned long mask = Utility::TenBase(digi[ID]->GetSettingValueFromMemory(PHA::CH::ChannelsTriggerMask, cbChPick[ID]->currentData().toInt())); leTriggerMask[ID][ch]->setText("0x" + QString::number(mask, 16).toUpper()); //-------- PSD FillComboBoxValueFromMemory(cbbADCInputBaselineAvg[ID][ch], PSD::CH::ADCInputBaselineAvg, index); FillSpinBoxValueFromMemory(spbAbsBaseline[ID][ch], PSD::CH::AbsoluteBaseline, index); FillSpinBoxValueFromMemory(spbADCInputBaselineGuard[ID][ch], PSD::CH::ADCInputBaselineGuard, index); FillComboBoxValueFromMemory(cbbTriggerFilter[ID][ch], PSD::CH::TriggerFilterSelection, index); FillComboBoxValueFromMemory(cbbTriggerHysteresis[ID][ch], PSD::CH::TriggerHysteresis, index); FillSpinBoxValueFromMemory(spbCFDDelay[ID][ch], PSD::CH::CFDDelay, index); FillSpinBoxValueFromMemory(spbCFDFraction[ID][ch], PSD::CH::CFDFraction, index); FillComboBoxValueFromMemory(cbbSmoothingFactor[ID][ch], PSD::CH::SmoothingFactor, index); FillComboBoxValueFromMemory(cbbChargeSmooting[ID][ch], PSD::CH::ChargeSmoothing, index); FillComboBoxValueFromMemory(cbbTimeFilterSmoothing[ID][ch], PSD::CH::TimeFilterSmoothing, index); FillSpinBoxValueFromMemory(spbTimeFilterReTriggerGuard[ID][ch], PSD::CH::TimeFilterRetriggerGuard, index); FillSpinBoxValueFromMemory(spbPileupGap[ID][ch], PSD::CH::PileupGap, index); FillSpinBoxValueFromMemory(spbGateLong[ID][ch], PSD::CH::GateLongLength, index); FillSpinBoxValueFromMemory(spbGateShort[ID][ch], PSD::CH::GateShortLength, index); FillSpinBoxValueFromMemory(spbGateOffset[ID][ch], PSD::CH::GateOffset, index); FillSpinBoxValueFromMemory(spbLongChargeIntergratorPedestal[ID][ch], PSD::CH::LongChargeIntegratorPedestal, index); FillSpinBoxValueFromMemory(spbShortChargeIntergratorPedestal[ID][ch], PSD::CH::ShortChargeIntegratorPedestal, index); FillComboBoxValueFromMemory(cbbEnergyGain[ID][ch], PSD::CH::EnergyGain, index); FillSpinBoxValueFromMemory(spbNeutronThreshold[ID][ch], PSD::CH::NeutronThreshold, index); FillComboBoxValueFromMemory(cbbEventNeutronReject[ID][ch], PSD::CH::EventNeutronReject, index); FillComboBoxValueFromMemory(cbbWaveNeutronReject[ID][ch], PSD::CH::WaveNeutronReject, index); enableSignalSlot = true; } }); } int rowID = 0; {//*--------- Group 1 box1[digiID] = new QGroupBox("Input Settings", digiTab[digiID]); allLayout->addWidget(box1[digiID]); QGridLayout * layout1 = new QGridLayout(box1[digiID]); rowID = 0; SetupComboBox(cbbOnOff[digiID][ch], PHA::CH::ChannelEnable, -1, true, "On/Off", layout1, rowID, 0); SetupComboBox(cbbWaveSource[digiID][ch], PHA::CH::WaveDataSource, -1, true, "Wave Data Source", layout1, rowID, 2); rowID ++; SetupComboBox(cbbWaveRes[digiID][ch], PHA::CH::WaveResolution, -1, true, "Wave Resol.", layout1, rowID, 0); SetupComboBox(cbbWaveSave[digiID][ch], PHA::CH::WaveSaving, -1, true, "Wave Save", layout1, rowID, 2); rowID ++; SetupSpinBox(spbDCOffset[digiID][ch], PHA::CH::DC_Offset, -1, true, "DC Offset [%]", layout1, rowID, 0); SetupSpinBox(spbThreshold[digiID][ch], PHA::CH::TriggerThreshold, -1, true, "Threshold [LSB]", layout1, rowID, 2); rowID ++; SetupSpinBox(spbRecordLength[digiID][ch], PHA::CH::RecordLength, -1, true, "Record Length [ns]", layout1, rowID, 0); SetupSpinBox(spbPreTrigger[digiID][ch], PHA::CH::PreTrigger, -1, true, "Pre Trigger [ns]", layout1, rowID, 2); rowID ++; SetupComboBox(cbbParity[digiID][ch], PHA::CH::Polarity, -1, true, "Parity", layout1, rowID, 0); SetupComboBox(cbbADCInputBaselineAvg[digiID][ch], PSD::CH::ADCInputBaselineAvg, -1, true, "ADC Input BL Avg.", layout1, rowID, 2); rowID ++; SetupSpinBox(spbAbsBaseline[digiID][ch], PSD::CH::AbsoluteBaseline, -1, true, "Abs. Baseline", layout1, rowID, 0); SetupSpinBox(spbADCInputBaselineGuard[digiID][ch], PSD::CH::ADCInputBaselineGuard, -1, true, "ADC Input BL Gaurd [ns]", layout1, rowID, 2); } {//*--------- Group 2 box3[digiID] = new QGroupBox("Gate Settings", digiTab[digiID]); allLayout->addWidget(box3[digiID]); QGridLayout * layout3 = new QGridLayout(box3[digiID]); //------------------------------ rowID = 0; SetupSpinBox(spbGateLong[digiID][ch], PSD::CH::GateLongLength, -1, true, "Long Gate [ns]", layout3, rowID, 0); SetupSpinBox(spbGateShort[digiID][ch], PSD::CH::GateShortLength, -1, true, "Short Gate [ns]", layout3, rowID, 2); rowID ++; SetupSpinBox(spbGateOffset[digiID][ch], PSD::CH::GateOffset, -1, true, "Gate Offset [ns]", layout3, rowID, 0); SetupComboBox(cbbEnergyGain[digiID][ch], PSD::CH::EnergyGain, -1, true, "Energy Gain", layout3, rowID, 2); rowID ++; SetupSpinBox(spbLongChargeIntergratorPedestal[digiID][ch], PSD::CH::LongChargeIntegratorPedestal, -1, true, "Long Ped.", layout3, rowID, 0); SetupSpinBox(spbShortChargeIntergratorPedestal[digiID][ch], PSD::CH::ShortChargeIntegratorPedestal, -1, true, "Short Ped.", layout3, rowID, 2); } {//*--------- Group 4 box4[digiID] = new QGroupBox("Probe Settings", digiTab[digiID]); allLayout->addWidget(box4[digiID]); QGridLayout * layout4 = new QGridLayout(box4[digiID]); //------------------------------ rowID = 0; SetupComboBox(cbbAnaProbe0[digiID][ch], PSD::CH::WaveAnalogProbe0, -1, true, "Analog Prob. 0", layout4, rowID, 0, 1, 2); SetupComboBox(cbbAnaProbe1[digiID][ch], PSD::CH::WaveAnalogProbe1, -1, true, "Analog Prob. 1", layout4, rowID, 3, 1, 2); //------------------------------ rowID ++; SetupComboBox(cbbDigProbe0[digiID][ch], PSD::CH::WaveDigitalProbe0, -1, true, "Digitial Prob. 0", layout4, rowID, 0, 1, 2); SetupComboBox(cbbDigProbe1[digiID][ch], PSD::CH::WaveDigitalProbe1, -1, true, "Digitial Prob. 1", layout4, rowID, 3, 1, 2); //------------------------------ rowID ++; SetupComboBox(cbbDigProbe2[digiID][ch], PSD::CH::WaveDigitalProbe2, -1, true, "Digitial Prob. 2", layout4, rowID, 0, 1, 2); SetupComboBox(cbbDigProbe3[digiID][ch], PSD::CH::WaveDigitalProbe3, -1, true, "Digitial Prob. 3", layout4, rowID, 3, 1, 2); } {//*--------- Group 5 box5[digiID] = new QGroupBox("Trigger Settings", digiTab[digiID]); allLayout->addWidget(box5[digiID]); QGridLayout * layout5 = new QGridLayout(box5[digiID]); //------------------------------ rowID = 0; SetupComboBox(cbbEvtTrigger[digiID][ch], PHA::CH::EventTriggerSource, -1, true, "Event Trig. Source", layout5, rowID, 0); SetupComboBox(cbbWaveTrigger[digiID][ch], PHA::CH::WaveTriggerSource, -1, true, "Wave Trig. Source", layout5, rowID, 2); //------------------------------ rowID ++; SetupComboBox(cbbChVetoSrc[digiID][ch], PHA::CH::ChannelVetoSource, -1, true, "Veto Source", layout5, rowID, 0); QLabel * lbTrgMsk = new QLabel("Trigger Mask"); lbTrgMsk->setAlignment(Qt::AlignRight | Qt::AlignCenter); layout5->addWidget(lbTrgMsk, rowID, 2); leTriggerMask[digiID][ch] = new QLineEdit(this); leTriggerMask[digiID][ch]->setToolTip("Both Hex or Dec is OK."); layout5->addWidget(leTriggerMask[digiID][ch], rowID, 3); connect(leTriggerMask[digiID][ch], &QLineEdit::textChanged, this, [=](){ if( !enableSignalSlot ) return; leTriggerMask[digiID][ch]->setStyleSheet("color:blue;"); }); connect(leTriggerMask[digiID][ch], &QLineEdit::returnPressed, this, [=](){ if( !enableSignalSlot ) return; int index = cbChPick[ID]->currentData().toInt(); QString SixteenBaseValue = "0x" + QString::number(Utility::TenBase(leTriggerMask[ID][ch]->text().toStdString()), 16).toUpper(); leTriggerMask[ID][ch]->setText(SixteenBaseValue); QString msg; msg = "DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + "|" + QString::fromStdString(PHA::CH::ChannelsTriggerMask.GetPara()) ; msg += ",CH:" + (index == -1 ? "All" : QString::number(index)); msg += " = " + SixteenBaseValue; if( digi[ID]->WriteValue(PHA::CH::ChannelsTriggerMask, SixteenBaseValue.toStdString(), index)){ SendLogMsg(msg + "|OK."); leTriggerMask[ID][ch]->setStyleSheet(""); UpdatePanelFromMemory(); UpdateOtherPanels(); }else{ SendLogMsg(msg + "|Fail."); leTriggerMask[ID][ch]->setStyleSheet("color:red;"); } }); //------------------------------ rowID ++; SetupComboBox(cbbCoinMask[digiID][ch], PHA::CH::CoincidenceMask, -1, true, "Coin. Mask", layout5, rowID, 0); SetupComboBox(cbbAntiCoinMask[digiID][ch], PHA::CH::AntiCoincidenceMask, -1, true, "Anti-Coin. Mask", layout5, rowID, 2); //------------------------------ rowID ++; SetupSpinBox(spbCoinLength[digiID][ch], PHA::CH::CoincidenceLength, -1, true, "Coin. Length [ns]", layout5, rowID, 0); SetupSpinBox(spbADCVetoWidth[digiID][ch], PHA::CH::ADCVetoWidth, -1, true, "ADC Veto Length [ns]", layout5, rowID, 2); //------------------------------ rowID ++; SetupComboBox(cbbTriggerFilter[digiID][ch], PSD::CH::TriggerFilterSelection, -1, true, "Trig. Filter", layout5, rowID, 0); SetupComboBox(cbbTriggerHysteresis[digiID][ch], PSD::CH::TriggerHysteresis, -1, true, "Trig. Hysteresis", layout5, rowID, 2); rowID ++; SetupSpinBox(spbPileupGap[digiID][ch], PSD::CH::PileupGap, -1, true, "Pile-Up Gap [ns]", layout5, rowID, 0); SetupSpinBox(spbTimeFilterReTriggerGuard[digiID][ch], PSD::CH::TimeFilterRetriggerGuard,-1, true, "Time Filter Re.Trg Guard [ns]", layout5, rowID, 2); rowID ++; SetupSpinBox(spbCFDDelay[digiID][ch], PSD::CH::CFDDelay, -1, true, "CFD Delay [ns]", layout5, rowID, 0); SetupSpinBox(spbCFDFraction[digiID][ch], PSD::CH::CFDFraction, -1, true, "CFD Frac. [%]", layout5, rowID, 2); rowID ++; SetupComboBox(cbbSmoothingFactor[digiID][ch], PSD::CH::SmoothingFactor, -1, true, "Smoothing Fact.", layout5, rowID, 0); SetupComboBox(cbbChargeSmooting[digiID][ch], PSD::CH::ChargeSmoothing, -1, true, "Charge Smoothing", layout5, rowID, 2); rowID ++; SetupComboBox(cbbTimeFilterSmoothing[digiID][ch], PSD::CH::TimeFilterSmoothing, -1, true, "Time Filter Smoothing", layout5, rowID, 0); for( int i = 0; i < layout5->columnCount(); i++) layout5->setColumnStretch(i, 1); } {//*--------- Group 6 box6[digiID] = new QGroupBox("Other Settings", digiTab[digiID]); allLayout->addWidget(box6[digiID]); QGridLayout * layout6 = new QGridLayout(box6[digiID]); //------------------------------ rowID = 0 ; SetupComboBox(cbbEventSelector[digiID][ch], PHA::CH::EventSelector, -1, true, "Event Selector", layout6, rowID, 0); SetupComboBox(cbbWaveSelector[digiID][ch], PHA::CH::WaveSelector, -1, true, "Wave Selector", layout6, rowID, 2); //------------------------------ rowID ++; SetupSpinBox(spbEnergySkimLow[digiID][ch], PHA::CH::EnergySkimLowDiscriminator, -1, true, "Energy Skim Low", layout6, rowID, 0); SetupSpinBox(spbEnergySkimHigh[digiID][ch], PHA::CH::EnergySkimHighDiscriminator, -1, true, "Energy Skim High", layout6, rowID, 2); //------------------------------ rowID ++; SetupComboBox(cbbEventNeutronReject[digiID][ch], PSD::CH::EventNeutronReject, -1, true, "Event Neutron Rej.", layout6, rowID, 0); SetupComboBox(cbbWaveNeutronReject[digiID][ch], PSD::CH::WaveNeutronReject, -1, true, "Wave Neutron Rej.", layout6, rowID, 2); //------------------------------ rowID ++; SetupSpinBox(spbNeutronThreshold[digiID][ch], PSD::CH::NeutronThreshold, -1, true, "Neutron Threshold", layout6, rowID, 0); } {//@============== input tab inputTab[digiID] = new QTabWidget(digiTab[digiID]); chTabWidget[digiID]->addTab(inputTab[digiID], "Input"); SetupComboBoxTab(cbbOnOff, PHA::CH::ChannelEnable, "On/Off", inputTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupComboBoxTab(cbbWaveSource, PHA::CH::WaveDataSource, "Wave Data Dource", inputTab[digiID], digiID, digi[digiID]->GetNChannels(), 2); SetupComboBoxTab(cbbWaveRes, PHA::CH::WaveResolution, "Wave Resol.", inputTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupComboBoxTab(cbbWaveSave, PHA::CH::WaveSaving, "Wave Save", inputTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbDCOffset, PHA::CH::DC_Offset, "DC Offset [%]", inputTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbThreshold, PHA::CH::TriggerThreshold, "Threshold [LSB]", inputTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbRecordLength, PHA::CH::RecordLength, "Record Length [ns]", inputTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbPreTrigger, PHA::CH::PreTrigger, "PreTrigger [ns]", inputTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupComboBoxTab(cbbParity, PHA::CH::Polarity, "Parity", inputTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupComboBoxTab(cbbADCInputBaselineAvg, PSD::CH::ADCInputBaselineAvg, "ADC Input BL Avg.", inputTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbAbsBaseline, PSD::CH::AbsoluteBaseline, "Abs. Baseline", inputTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbADCInputBaselineGuard, PSD::CH::ADCInputBaselineGuard, "ADC Input BL Gaurd [ns]", inputTab[digiID], digiID, digi[digiID]->GetNChannels()); for( int ch = 0; ch < digi[digiID]->GetNChannels(); ch++){ //Set color of some combox cbbOnOff[digiID][ch]->setItemData(1, QBrush(orangeColor), Qt::ForegroundRole); connect(cbbOnOff[digiID][ch], &RComboBox::currentIndexChanged, this, [=](int index){ cbbOnOff[ID][ch]->setStyleSheet(index == 1 ? "color : orange;" : "");}); cbbParity[digiID][ch]->setItemData(1, QBrush(orangeColor), Qt::ForegroundRole); connect(cbbParity[digiID][ch], &RComboBox::currentIndexChanged, this, [=](int index){ cbbParity[ID][ch]->setStyleSheet(index == 1 ? "color : orange;" : "");}); } } {//@============== PSD Gate tab trapTab[digiID] = new QTabWidget(digiTab[digiID]); chTabWidget[digiID]->addTab(trapTab[digiID], "Gate"); SetupSpinBoxTab(spbGateLong, PSD::CH::GateLongLength, "Long Gate [ns]", trapTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbGateShort, PSD::CH::GateShortLength, "Short Gate [ns]", trapTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbGateOffset, PSD::CH::GateOffset, "Gate Offset [ns]", trapTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupComboBoxTab(cbbEnergyGain, PSD::CH::EnergyGain, "Energy Gain", trapTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbLongChargeIntergratorPedestal, PSD::CH::LongChargeIntegratorPedestal, "Long Ped.", trapTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbShortChargeIntergratorPedestal, PSD::CH::ShortChargeIntegratorPedestal, "Short Ped.", trapTab[digiID], digiID, digi[digiID]->GetNChannels()); } {//@============== Probe tab probeTab[digiID] = new QTabWidget(digiTab[digiID]); chTabWidget[digiID]->addTab(probeTab[digiID], "Probe"); SetupComboBoxTab(cbbAnaProbe0, PSD::CH::WaveAnalogProbe0, "Analog Prob. 0", probeTab[digiID], digiID, digi[digiID]->GetNChannels(), 4); SetupComboBoxTab(cbbAnaProbe1, PSD::CH::WaveAnalogProbe1, "Analog Prob. 1", probeTab[digiID], digiID, digi[digiID]->GetNChannels(), 4); SetupComboBoxTab(cbbDigProbe0, PSD::CH::WaveDigitalProbe0, "Digital Prob. 0", probeTab[digiID], digiID, digi[digiID]->GetNChannels(), 4); SetupComboBoxTab(cbbDigProbe1, PSD::CH::WaveDigitalProbe1, "Digital Prob. 1", probeTab[digiID], digiID, digi[digiID]->GetNChannels(), 4); SetupComboBoxTab(cbbDigProbe2, PSD::CH::WaveDigitalProbe2, "Digital Prob. 2", probeTab[digiID], digiID, digi[digiID]->GetNChannels(), 4); SetupComboBoxTab(cbbDigProbe3, PSD::CH::WaveDigitalProbe3, "Digital Prob. 3", probeTab[digiID], digiID, digi[digiID]->GetNChannels(), 4); } {//@============== Other tab otherTab[digiID] = new QTabWidget(digiTab[digiID]); chTabWidget[digiID]->addTab(otherTab[digiID], "Others"); SetupComboBoxTab(cbbEventSelector, PHA::CH::EventSelector, "Event Selector", otherTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupComboBoxTab(cbbWaveSelector, PHA::CH::WaveSelector, "Wave Selector", otherTab[digiID], digiID, digi[digiID]->GetNChannels(), 2 ); SetupSpinBoxTab(spbEnergySkimLow, PHA::CH::EnergySkimLowDiscriminator, "Energy Skim Low", otherTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbEnergySkimHigh, PHA::CH::EnergySkimHighDiscriminator, "Energy Skim High", otherTab[digiID], digiID, digi[digiID]->GetNChannels()); } {//@============== Trigger tab triggerTab[digiID] = new QTabWidget(digiTab[digiID]); chTabWidget[digiID]->addTab(triggerTab[digiID], "Trigger"); SetupComboBoxTab(cbbEvtTrigger, PHA::CH::EventTriggerSource, "Event Trig. Source", triggerTab[digiID], digiID, digi[digiID]->GetNChannels(), 2); SetupComboBoxTab(cbbWaveTrigger, PHA::CH::WaveTriggerSource, "Wave Trig. Source", triggerTab[digiID], digiID, digi[digiID]->GetNChannels(), 2); SetupComboBoxTab(cbbChVetoSrc, PHA::CH::ChannelVetoSource, "Veto Source", triggerTab[digiID], digiID, digi[digiID]->GetNChannels(), 2); SetupComboBoxTab(cbbCoinMask, PHA::CH::CoincidenceMask, "Coin. Mask", triggerTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupComboBoxTab(cbbAntiCoinMask, PHA::CH::AntiCoincidenceMask, "Anti-Coin. Mask", triggerTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbCoinLength, PHA::CH::CoincidenceLength, "Coin. Length [ns]", triggerTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbADCVetoWidth, PHA::CH::ADCVetoWidth, "ADC Veto Length [ns]", triggerTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupComboBoxTab(cbbTriggerFilter, PSD::CH::TriggerFilterSelection, "Trig. Filter", triggerTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupComboBoxTab(cbbTriggerHysteresis, PSD::CH::TriggerHysteresis, "Trig. Hysteresis", triggerTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbPileupGap, PSD::CH::PileupGap, "Pile-Up Gap [ns]", triggerTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbTimeFilterReTriggerGuard, PSD::CH::TimeFilterRetriggerGuard, "Time Filter Re.Trg Guard [ns]", triggerTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbCFDDelay, PSD::CH::CFDDelay, "CFD Delay [ns]", triggerTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbCFDFraction, PSD::CH::CFDFraction, "CFD Frac. [%]", triggerTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupComboBoxTab(cbbSmoothingFactor, PSD::CH::SmoothingFactor, "Smoothing Fact.", triggerTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupComboBoxTab(cbbChargeSmooting, PSD::CH::ChargeSmoothing, "Charge Smoothing", triggerTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupComboBoxTab(cbbTimeFilterSmoothing, PSD::CH::TimeFilterSmoothing, "Time Filter Smoothing", triggerTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupComboBoxTab(cbbEventNeutronReject, PSD::CH::EventNeutronReject, "Event Neutron Rej.", triggerTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupComboBoxTab(cbbWaveNeutronReject, PSD::CH::WaveNeutronReject, "Wave Neutron Rej.", triggerTab[digiID], digiID, digi[digiID]->GetNChannels()); SetupSpinBoxTab(spbNeutronThreshold, PSD::CH::NeutronThreshold, "Neutron Threshold", triggerTab[digiID], digiID, digi[digiID]->GetNChannels()); } for( int ch = 0; ch < digi[digiID]->GetNChannels() + 1; ch++) { //----- SyncBox connect(cbbOnOff[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbOnOff, ch);}); connect(spbDCOffset[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbDCOffset, ch);}); connect(spbThreshold[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbThreshold, ch);}); connect(cbbParity[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbParity, ch);}); connect(spbRecordLength[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbRecordLength, ch);}); connect(spbPreTrigger[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbPreTrigger, ch);}); connect(cbbWaveSource[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbWaveSource, ch);}); connect(cbbWaveRes[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbWaveRes, ch);}); connect(cbbWaveSave[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbWaveSave, ch);}); connect(cbbAnaProbe0[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbAnaProbe0, ch);}); connect(cbbAnaProbe1[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbAnaProbe1, ch);}); connect(cbbDigProbe0[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbDigProbe0, ch);}); connect(cbbDigProbe1[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbDigProbe1, ch);}); connect(cbbDigProbe2[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbDigProbe2, ch);}); connect(cbbDigProbe3[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbDigProbe3, ch);}); connect(cbbEventSelector[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbEventSelector, ch);}); connect(cbbWaveSelector[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbWaveSelector, ch);}); connect(spbEnergySkimLow[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbEnergySkimLow, ch);}); connect(spbEnergySkimHigh[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbEnergySkimHigh, ch);}); connect(cbbEvtTrigger[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbEvtTrigger, ch);}); connect(cbbWaveTrigger[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbWaveTrigger, ch);}); connect(cbbChVetoSrc[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbChVetoSrc, ch);}); connect(cbbCoinMask[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbCoinMask, ch);}); connect(cbbAntiCoinMask[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbAntiCoinMask, ch);}); connect(spbCoinLength[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbCoinLength, ch);}); connect(spbADCVetoWidth[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbADCVetoWidth, ch);}); connect(cbbADCInputBaselineAvg[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbADCInputBaselineAvg, ch);}); connect(spbAbsBaseline[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbAbsBaseline, ch);}); connect(spbADCInputBaselineGuard[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbADCInputBaselineGuard, ch);}); connect(cbbTriggerFilter[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbTriggerFilter, ch);}); connect(cbbTriggerHysteresis[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbTriggerHysteresis, ch);}); connect(spbCFDDelay[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbCFDDelay, ch);}); connect(spbCFDFraction[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbCFDFraction, ch);}); connect(cbbSmoothingFactor[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbSmoothingFactor, ch);}); connect(cbbChargeSmooting[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbChargeSmooting, ch);}); connect(cbbTimeFilterSmoothing[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbTimeFilterSmoothing, ch);}); connect(spbTimeFilterReTriggerGuard[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbTimeFilterReTriggerGuard, ch);}); connect(spbPileupGap[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbPileupGap, ch);}); connect(spbGateLong[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbGateLong, ch);}); connect(spbGateShort[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbGateShort, ch);}); connect(spbGateOffset[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbGateOffset, ch);}); connect(spbLongChargeIntergratorPedestal[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbLongChargeIntergratorPedestal, ch);}); connect(spbShortChargeIntergratorPedestal[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbShortChargeIntergratorPedestal, ch);}); connect(cbbEnergyGain[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbEnergyGain, ch);}); connect(spbNeutronThreshold[digiID][ch], &RSpinBox::returnPressed, this, [=](){ SyncSpinBox(spbNeutronThreshold, ch);}); connect(cbbEventNeutronReject[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbEventNeutronReject, ch);}); connect(cbbWaveNeutronReject[digiID][ch], &RComboBox::currentIndexChanged, this, [=](){ SyncComboBox(cbbWaveNeutronReject, ch);}); } } //^================================================================ void DigiSettingsPanel::onTriggerClick(int haha){ unsigned short iDig = haha >> 16; unsigned short ch = (haha >> 8 ) & 0xFF; unsigned short ch2 = haha & 0xFF; //qDebug() << "Digi-" << iDig << ", Ch-" << ch << ", " << ch2; if(trgMapClickStatus[iDig][ch][ch2]){ trgMap[iDig][ch][ch2]->setStyleSheet(""); trgMapClickStatus[iDig][ch][ch2] = false; }else{ trgMap[iDig][ch][ch2]->setStyleSheet("background-color: red;"); trgMapClickStatus[iDig][ch][ch2] = true; } //format triggermask for ch; unsigned long mask = 0; for( int i = 0; i < digi[iDig]->GetNChannels(); i++){ if( trgMapClickStatus[iDig][ch][i] ) { mask += (1ULL << i); } } QString kaka = QString::number(mask); QString msg; msg = "DIG:" + QString::number(digi[iDig]->GetNChannels()) + ",CH:" + QString::number(ch) + "|" + QString::fromStdString(PHA::CH::ChannelsTriggerMask.GetPara() ) + " = 0x" + QString::number(mask,16); if( digi[iDig]->WriteValue(PHA::CH::ChannelsTriggerMask, kaka.toStdString(), ch) ){ SendLogMsg(msg + "|OK."); }else{ SendLogMsg(msg + "|Fail."); digi[iDig]->ReadValue(PHA::CH::ChannelsTriggerMask, ch); } UpdatePanelFromMemory(); UpdateOtherPanels(); } void DigiSettingsPanel::ReadTriggerMap(){ enableSignalSlot = false; //printf("%s\n", __func__); // cbAllEvtTrigger[ID]->setCurrentIndex(cbbEvtTrigger[ID][MaxNumberOfChannel]->currentIndex()); // cbAllWaveTrigger[ID]->setCurrentIndex(cbbWaveTrigger[ID][MaxNumberOfChannel]->currentIndex()); // cbAllCoinMask[ID]->setCurrentIndex(cbbCoinMask[ID][MaxNumberOfChannel]->currentIndex()); // cbAllAntiCoinMask[ID]->setCurrentIndex(cbbAntiCoinMask[ID][MaxNumberOfChannel]->currentIndex()); // sbAllCoinLength[ID]->setValue(spbCoinLength[ID][MaxNumberOfChannel]->value()); for( int ch = 0; ch < (int) digi[ID]->GetNChannels(); ch ++){ unsigned long mask = Utility::TenBase(digi[ID]->GetSettingValueFromMemory(PHA::CH::ChannelsTriggerMask, ch)); //printf("Trigger Mask of ch-%2d : 0x%s |%s| \n", ch, QString::number(mask, 16).toStdString().c_str(), digi[ID]->GetSettingValueFromMemory(PHA::CH::ChannelsTriggerMask, ch).c_str()); for( int k = 0; k < (int) digi[ID]->GetNChannels(); k ++ ){ trgMapClickStatus[ID][ch][k] = ( (mask >> k) & 0x1 ); if( (mask >> k) & 0x1 ){ trgMap[ID][ch][k]->setStyleSheet("background-color: red;"); }else{ trgMap[ID][ch][k]->setStyleSheet(""); } } } enableSignalSlot = true; } //^================================================================ void DigiSettingsPanel::RefreshSettings(){ printf("DigiSettingsPanel::%s\n", __func__); digi[ID]->ReadAllSettings(); UpdatePanelFromMemory(); } void DigiSettingsPanel::UpdateStatus(){ if( tabWidget->currentIndex() >= nDigi) return; digi[ID]->ReadValue(PHA::DIG::LED_status); digi[ID]->ReadValue(PHA::DIG::ACQ_status); for( int i = 0; i < (int) PHA::DIG::TempSensADC.size(); i++){ if( digi[ID]->GetModelName() != "VX2745" && i > 0 ) continue; digi[ID]->ReadValue(PHA::DIG::TempSensADC[i]); } for( int i = 0; i < (int) PHA::DIG::TempSensOthers.size(); i++){ digi[ID]->ReadValue(PHA::DIG::TempSensOthers[i]); } UpdatePanelFromMemory(true); } void DigiSettingsPanel::EnableControl(){ UpdatePanelFromMemory(); for( int id = 0; id < nDigi; id ++){ bool enable = !digi[id]->IsAcqOn(); //digiBox[id]->setEnabled(enable); //if( digi[id]->GetFPGAType() == "DPP_PHA") VGABox[id]->setEnabled(enable); //if( ckbGlbTrgSource[id][3]->isChecked() ) testPulseBox[id]->setEnabled(enable); bdCfg[id]->setEnabled(enable); // bdTestPulse[id]->setEnabled(enable); bdVGA[id]->setEnabled(enable); bdLVDS[id]->setEnabled(enable); bdITL[id]->setEnabled(enable); box1[id]->setEnabled(enable); box3[id]->setEnabled(enable); box4[id]->setEnabled(enable); box5[id]->setEnabled(enable); box6[id]->setEnabled(enable); bnReadSettngs[id]->setEnabled(enable); bnResetBd[id]->setEnabled(enable); bnDefaultSetting[id]->setEnabled(enable); bnSaveSettings[id]->setEnabled(enable); bnLoadSettings[id]->setEnabled(enable); bnClearData[id]->setEnabled(enable); bnArmACQ[id]->setEnabled(enable); bnDisarmACQ[id]->setEnabled(enable); bnSoftwareStart[id]->setEnabled(enable); bnSoftwareStop[id]->setEnabled(enable); if( digi[id]->GetFPGAType() != "DPP_PHA" || digi[id]->GetModelName() != "VX2745" ) bdVGA[id]->setEnabled(false); QVector tempArray = {inputTab[id], trapTab[id], probeTab[id], otherTab[id] }; for( int k = 0; k < tempArray.size(); k++){ for( int i = 0; i < tempArray[k]->count(); i++) { if( k == 0 && (i == 0 || i == 1 || i == 2 ) ) continue; QWidget* currentTab = tempArray[k]->widget(i); if( currentTab ){ QList childWidgets = currentTab->findChildren(); for(int j=0; jsetEnabled(enable); } } } } //triggerMapTab[ID]->setEnabled(enable); icBox1->setEnabled(enable); icBox2->setEnabled(enable); } } void DigiSettingsPanel::SaveSettings(){ //Check path exist QDir dir(digiSettingPath); if( !dir.exists() ) dir.mkpath("."); QString defaultFileName = "setting_" + QString::number(digi[ID]->GetSerialNumber()) + "_" + QString::fromStdString(digi[ID]->GetFPGAType().substr(4)) + ".dat"; QString filePath = QFileDialog::getSaveFileName(this, "Save Settings File", QDir::toNativeSeparators(digiSettingPath + "/" + defaultFileName), "Data file (*.dat);;Text files (*.txt);;All files (*.*)"); if (!filePath.isEmpty()) { QFileInfo fileInfo(filePath); QString ext = fileInfo.suffix(); if( ext == "") filePath += ".dat"; int flag = digi[ID]->SaveSettingsToFile(filePath.toStdString().c_str()); switch (flag) { case 1 : { leSettingFile[ID]->setText(filePath); SendLogMsg("Saved setting file " + filePath + "."); }; break; case 0 : { leSettingFile[ID]->setText("fail to write setting file."); SendLogMsg(" Fail to write setting file. " + filePath + ""); }; break; case -1 : { leSettingFile[ID]->setText("fail to save setting file, same settings are empty."); SendLogMsg(" Fail to save setting file " + filePath + ", same settings are empty."); }; break; }; } } void DigiSettingsPanel::LoadSettings(){ QFileDialog fileDialog(this); fileDialog.setDirectory(digiSettingPath); fileDialog.setFileMode(QFileDialog::ExistingFile); fileDialog.setNameFilter("Data file (*.dat);;Text file (*.txt);;All file (*.*)"); int result = fileDialog.exec(); if( ! (result == QDialog::Accepted) ) return; if( fileDialog.selectedFiles().size() == 0 ) return; // when no file selected. QString fileName = fileDialog.selectedFiles().at(0); leSettingFile[ID]->setText(fileName); //TODO ==== check is the file valid; if( digi[ID]->LoadSettingsFromFile(fileName.toStdString().c_str()) ){ SendLogMsg("Loaded settings file " + fileName + " for Digi-" + QString::number(digi[ID]->GetSerialNumber())); UpdatePanelFromMemory(); UpdateOtherPanels(); }else{ SendLogMsg("Fail to Loaded settings file " + fileName + " for Digi-" + QString::number(digi[ID]->GetSerialNumber())); } } void DigiSettingsPanel::SetDefaultPHASettigns(){ SendLogMsg("Program Digitizer-" + QString::number(digi[ID]->GetSerialNumber()) + " to default " + QString::fromStdString(digi[ID]->GetFPGAType())); digi[ID]->ProgramBoard(); digi[ID]->ProgramChannels(); RefreshSettings(); } void DigiSettingsPanel::UpdatePanelFromMemory(bool onlyStatus){ if( !isVisible() ) return; enableSignalSlot = false; if( onlyStatus){ //printf("DigiSettingsPanel::%s Digi-%d [Only Board Status]\n", __func__, digi[ID]->GetSerialNumber()); }else{ printf("DigiSettingsPanel::%s Digi-%d\n", __func__, digi[ID]->GetSerialNumber()); } //--------- LED Status unsigned int ledStatus = atoi(digi[ID]->GetSettingValueFromMemory(PHA::DIG::LED_status).c_str()); for( int i = 0; i < 19; i++){ if( (ledStatus >> i) & 0x1 ) { LEDStatus[ID][i]->setStyleSheet("background-color:green;"); }else{ LEDStatus[ID][i]->setStyleSheet(""); } } //--------- ACQ Status unsigned int acqStatus = atoi(digi[ID]->GetSettingValueFromMemory(PHA::DIG::ACQ_status).c_str()); for( int i = 0; i < 7; i++){ if( (acqStatus >> i) & 0x1 ) { ACQStatus[ID][i]->setStyleSheet("background-color:green;"); }else{ ACQStatus[ID][i]->setStyleSheet(""); } } //-------- temperature for( int i = 0; i < 8; i++){ leTemp[ID][i]->setText(QString::fromStdString(digi[ID]->GetSettingValueFromMemory(PHA::DIG::TempSensADC[i]))); } if( onlyStatus ) { enableSignalSlot = true; return; } for (unsigned short j = 0; j < (unsigned short) infoIndex.size(); j++){ Reg reg = infoIndex[j].second; QString text = QString::fromStdString(digi[ID]->ReadValue(reg)); if( reg.GetPara() == PHA::DIG::ADC_SampleRate.GetPara() ) { text += " = " + QString::number(digi[ID]->GetTick2ns(), 'f', 1) + " ns" ; } leInfo[ID][j]->setText(text); } //-------- board settings FillComboBoxValueFromMemory(cbbClockSource[ID], PHA::DIG::ClockSource); QString result = QString::fromStdString(digi[ID]->GetSettingValueFromMemory(PHA::DIG::StartSource)); QStringList resultList = result.remove(QChar(' ')).split("|"); //qDebug() << resultList << "," << resultList.count(); for( int j = 0; j < (int) PHA::DIG::StartSource.GetAnswers().size(); j++){ ckbStartSource[ID][j]->setChecked(false); for( int i = 0; i < resultList.count(); i++){ //qDebug() << resultList[i] << ", " << QString::fromStdString((DIGIPARA::DIG::StartSource.GetAnswers())[j].first); if( resultList[i] == QString::fromStdString((PHA::DIG::StartSource.GetAnswers())[j].first) ) ckbStartSource[ID][j]->setChecked(true); } } result = QString::fromStdString(digi[ID]->GetSettingValueFromMemory(PHA::DIG::GlobalTriggerSource)); resultList = result.remove(QChar(' ')).split("|"); bdTestPulse[ID]->setEnabled(false); for( int j = 0; j < (int) PHA::DIG::GlobalTriggerSource.GetAnswers().size(); j++){ ckbGlbTrgSource[ID][j]->setChecked(false); for( int i = 0; i < resultList.count(); i++){ if( resultList[i] == QString::fromStdString((PHA::DIG::GlobalTriggerSource.GetAnswers())[j].first) ) { ckbGlbTrgSource[ID][j]->setChecked(true); if( resultList[i] == "TestPulse" || cbDACoutMode[ID]->currentData().toString().toStdString() == "Square" ) bdTestPulse[ID]->setEnabled(true); } } } FillComboBoxValueFromMemory(cbbTrgOut[ID], PHA::DIG::TrgOutMode); FillComboBoxValueFromMemory(cbbGPIO[ID], PHA::DIG::GPIOMode); FillComboBoxValueFromMemory(cbbBusyIn[ID], PHA::DIG::BusyInSource); FillComboBoxValueFromMemory(cbbSyncOut[ID], PHA::DIG::SyncOutMode); FillComboBoxValueFromMemory(cbbAutoDisarmAcq[ID], PHA::DIG::EnableAutoDisarmACQ); FillComboBoxValueFromMemory(cbbStatEvents[ID], PHA::DIG::EnableStatisticEvents); FillComboBoxValueFromMemory(cbbBdVetoPolarity[ID], PHA::DIG::BoardVetoPolarity); FillComboBoxValueFromMemory(cbbBoardVetoSource[ID], PHA::DIG::BoardVetoSource); FillComboBoxValueFromMemory(cbbIOLevel[ID], PHA::DIG::IO_Level); FillSpinBoxValueFromMemory(dsbBdVetoWidth[ID], PHA::DIG::BoardVetoWidth); FillSpinBoxValueFromMemory(spbRunDelay[ID], PHA::DIG::RunDelay); FillSpinBoxValueFromMemory(dsbVolatileClockOutDelay[ID], PHA::DIG::VolatileClockOutDelay); FillSpinBoxValueFromMemory(dsbClockOutDelay[ID], PHA::DIG::PermanentClockOutDelay); //------------- test pulse FillSpinBoxValueFromMemory(dsbTestPuslePeriod[ID], PHA::DIG::TestPulsePeriod); FillSpinBoxValueFromMemory(dsbTestPusleWidth[ID], PHA::DIG::TestPulseWidth); FillSpinBoxValueFromMemory(spbTestPusleLowLevel[ID], PHA::DIG::TestPulseLowLevel); FillSpinBoxValueFromMemory(spbTestPusleHighLevel[ID], PHA::DIG::TestPulseHighLevel); //------------- ITL FillComboBoxValueFromMemory(cbITLAMainLogic[ID], PHA::DIG::ITLAMainLogic); FillComboBoxValueFromMemory(cbITLAPairLogic[ID], PHA::DIG::ITLAPairLogic); FillComboBoxValueFromMemory(cbITLAPolarity[ID], PHA::DIG::ITLAPolarity); FillSpinBoxValueFromMemory( sbITLAMajority[ID], PHA::DIG::ITLAMajorityLev); FillSpinBoxValueFromMemory( sbITLAGateWidth[ID], PHA::DIG::ITLAGateWidth); FillComboBoxValueFromMemory(cbITLBMainLogic[ID], PHA::DIG::ITLBMainLogic); FillComboBoxValueFromMemory(cbITLBPairLogic[ID], PHA::DIG::ITLBPairLogic); FillComboBoxValueFromMemory(cbITLBPolarity[ID], PHA::DIG::ITLBPolarity); FillSpinBoxValueFromMemory( sbITLBMajority[ID], PHA::DIG::ITLBMajorityLev); FillSpinBoxValueFromMemory( sbITLBGateWidth[ID], PHA::DIG::ITLBGateWidth); //------------- LVDS for( int k = 0; k < 4; k ++){ FillComboBoxValueFromMemory(cbLVDSMode[ID][k], PHA::LVDS::LVDSMode, k); FillComboBoxValueFromMemory(cbLVDSDirection[ID][k], PHA::LVDS::LVDSDirection, k); } leLVDSIOReg[ID]->setText(QString::fromStdString(digi[ID]->GetSettingValueFromMemory(PHA::DIG::LVDSIOReg))); //------------- DAC FillComboBoxValueFromMemory(cbDACoutMode[ID], PHA::DIG::DACoutMode); FillSpinBoxValueFromMemory(sbDACoutStaticLevel[ID], PHA::DIG::DACoutStaticLevel); FillSpinBoxValueFromMemory(sbDACoutChSelect[ID], PHA::DIG::DACoutChSelect); if( cbDACoutMode[ID]->currentData().toString().toStdString() == "Static" ) { sbDACoutStaticLevel[ID]->setEnabled(true); }else{ sbDACoutStaticLevel[ID]->setEnabled(false); } if( cbDACoutMode[ID]->currentData().toString().toStdString() == "ChInput" ) { sbDACoutChSelect[ID]->setEnabled(true); }else{ sbDACoutChSelect[ID]->setEnabled(false); } //------------ Group if( digi[ID]->GetModelName() != "VX2730" && digi[ID]->GetCupVer() >= MIN_VERSION_GROUP ){ for( int k = 0 ; k < MaxNumberOfGroup; k++){ FillSpinBoxValueFromMemory(spbInputDelay[ID][k], PHA::GROUP::InputDelay, k); // PHA = PSD } } //@============================== Channel setting/ status for( int ch = 0; ch < digi[ID]->GetNChannels(); ch++){ unsigned int status = atoi(digi[ID]->GetSettingValueFromMemory(PHA::CH::ChannelStatus).c_str()); for( int i = 0; i < 9; i++){ if( (status >> i) & 0x1 ) { chStatus[ID][ch][i]->setStyleSheet("background-color:green;"); }else{ chStatus[ID][ch][i]->setStyleSheet(""); } } chGainFactor[ID][ch]->setText(QString::fromStdString(digi[ID]->GetSettingValueFromMemory(PHA::CH::GainFactor, ch))); chADCToVolts[ID][ch]->setText(QString::fromStdString(digi[ID]->GetSettingValueFromMemory(PHA::CH::ADCToVolts, ch))); FillComboBoxValueFromMemory(cbbOnOff[ID][ch], PHA::CH::ChannelEnable, ch); FillSpinBoxValueFromMemory(spbRecordLength[ID][ch], PHA::CH::RecordLength, ch); FillSpinBoxValueFromMemory(spbPreTrigger[ID][ch], PHA::CH::PreTrigger, ch); FillSpinBoxValueFromMemory(spbDCOffset[ID][ch], PHA::CH::DC_Offset, ch); FillSpinBoxValueFromMemory(spbThreshold[ID][ch], PHA::CH::TriggerThreshold, ch); FillComboBoxValueFromMemory(cbbParity[ID][ch], PHA::CH::Polarity, ch); FillComboBoxValueFromMemory(cbbWaveSource[ID][ch], PHA::CH::WaveDataSource, ch); FillComboBoxValueFromMemory(cbbWaveRes[ID][ch], PHA::CH::WaveResolution, ch); FillComboBoxValueFromMemory(cbbWaveSave[ID][ch], PHA::CH::WaveSaving, ch); FillComboBoxValueFromMemory(cbbEvtTrigger[ID][ch], PHA::CH::EventTriggerSource, ch); FillComboBoxValueFromMemory(cbbWaveTrigger[ID][ch], PHA::CH::WaveTriggerSource, ch); FillComboBoxValueFromMemory(cbbCoinMask[ID][ch], PHA::CH::CoincidenceMask, ch); FillComboBoxValueFromMemory(cbbAntiCoinMask[ID][ch], PHA::CH::AntiCoincidenceMask, ch); FillSpinBoxValueFromMemory(spbCoinLength[ID][ch], PHA::CH::CoincidenceLength, ch); FillComboBoxValueFromMemory(cbbChVetoSrc[ID][ch], PHA::CH::ChannelVetoSource, ch); FillSpinBoxValueFromMemory(spbADCVetoWidth[ID][ch], PHA::CH::ADCVetoWidth, ch); FillComboBoxValueFromMemory(cbbEventSelector[ID][ch], PHA::CH::EventSelector, ch); FillComboBoxValueFromMemory(cbbWaveSelector[ID][ch], PHA::CH::WaveSelector, ch); FillSpinBoxValueFromMemory(spbEnergySkimLow[ID][ch], PHA::CH::EnergySkimLowDiscriminator, ch); FillSpinBoxValueFromMemory(spbEnergySkimHigh[ID][ch], PHA::CH::EnergySkimHighDiscriminator, ch); FillComboBoxValueFromMemory(cbbAnaProbe0[ID][ch], PHA::CH::WaveAnalogProbe0, ch); FillComboBoxValueFromMemory(cbbAnaProbe1[ID][ch], PHA::CH::WaveAnalogProbe1, ch); FillComboBoxValueFromMemory(cbbDigProbe0[ID][ch], PHA::CH::WaveDigitalProbe0, ch); FillComboBoxValueFromMemory(cbbDigProbe1[ID][ch], PHA::CH::WaveDigitalProbe1, ch); FillComboBoxValueFromMemory(cbbDigProbe2[ID][ch], PHA::CH::WaveDigitalProbe2, ch); FillComboBoxValueFromMemory(cbbDigProbe3[ID][ch], PHA::CH::WaveDigitalProbe3, ch); std::string itlConnect = digi[ID]->GetSettingValueFromMemory(PHA::CH::ITLConnect, ch); if( itlConnect == "Disabled" ) { ITLConnectStatus[ID][ch] = 0; chITLConnect[ID][ch][0]->setStyleSheet(""); chITLConnect[ID][ch][1]->setStyleSheet(""); } if( itlConnect == "ITLA" ) { ITLConnectStatus[ID][ch] = 1; chITLConnect[ID][ch][0]->setStyleSheet("background-color : green;"); chITLConnect[ID][ch][1]->setStyleSheet(""); } if( itlConnect == "ITLB" ) { ITLConnectStatus[ID][ch] = 2; chITLConnect[ID][ch][0]->setStyleSheet(""); chITLConnect[ID][ch][1]->setStyleSheet("background-color : green;"); } if( digi[ID]->GetFPGAType() == DPPType::PHA ) { FillSpinBoxValueFromMemory(spbInputRiseTime[ID][ch], PHA::CH::TimeFilterRiseTime, ch); FillSpinBoxValueFromMemory(spbTriggerGuard[ID][ch], PHA::CH::TimeFilterRetriggerGuard, ch); FillComboBoxValueFromMemory(cbbLowFilter[ID][ch], PHA::CH::EnergyFilterLowFreqFilter, ch); FillSpinBoxValueFromMemory(spbTrapRiseTime[ID][ch], PHA::CH::EnergyFilterRiseTime, ch); FillSpinBoxValueFromMemory(spbTrapFlatTop[ID][ch], PHA::CH::EnergyFilterFlatTop, ch); FillSpinBoxValueFromMemory(spbTrapPoleZero[ID][ch], PHA::CH::EnergyFilterPoleZero, ch); FillSpinBoxValueFromMemory(spbPeaking[ID][ch], PHA::CH::EnergyFilterPeakingPosition, ch); FillSpinBoxValueFromMemory(spbBaselineGuard[ID][ch], PHA::CH::EnergyFilterBaselineGuard, ch); FillSpinBoxValueFromMemory(spbPileupGuard[ID][ch], PHA::CH::EnergyFilterPileUpGuard, ch); FillComboBoxValueFromMemory(cbbBaselineAvg[ID][ch], PHA::CH::EnergyFilterBaselineAvg, ch); FillSpinBoxValueFromMemory(spbFineGain[ID][ch], PHA::CH::EnergyFilterFineGain, ch); FillComboBoxValueFromMemory(cbbPeakingAvg[ID][ch], PHA::CH::EnergyFilterPeakingAvg, ch); } if( digi[ID]->GetFPGAType() == DPPType::PSD){ FillComboBoxValueFromMemory(cbbADCInputBaselineAvg[ID][ch], PSD::CH::ADCInputBaselineAvg, ch); FillSpinBoxValueFromMemory(spbAbsBaseline[ID][ch], PSD::CH::AbsoluteBaseline, ch); FillSpinBoxValueFromMemory(spbADCInputBaselineGuard[ID][ch], PSD::CH::ADCInputBaselineGuard, ch); FillComboBoxValueFromMemory(cbbTriggerFilter[ID][ch], PSD::CH::TriggerFilterSelection, ch); FillComboBoxValueFromMemory(cbbTriggerHysteresis[ID][ch], PSD::CH::TriggerHysteresis, ch); FillSpinBoxValueFromMemory(spbCFDDelay[ID][ch], PSD::CH::CFDDelay, ch); FillSpinBoxValueFromMemory(spbCFDFraction[ID][ch], PSD::CH::CFDFraction, ch); FillComboBoxValueFromMemory(cbbSmoothingFactor[ID][ch], PSD::CH::SmoothingFactor, ch); FillComboBoxValueFromMemory(cbbChargeSmooting[ID][ch], PSD::CH::ChargeSmoothing, ch); FillComboBoxValueFromMemory(cbbTimeFilterSmoothing[ID][ch], PSD::CH::TimeFilterSmoothing, ch); FillSpinBoxValueFromMemory(spbTimeFilterReTriggerGuard[ID][ch], PSD::CH::TimeFilterRetriggerGuard, ch); FillSpinBoxValueFromMemory(spbPileupGap[ID][ch], PSD::CH::PileupGap, ch); FillSpinBoxValueFromMemory(spbGateLong[ID][ch], PSD::CH::GateLongLength, ch); FillSpinBoxValueFromMemory(spbGateShort[ID][ch], PSD::CH::GateShortLength, ch); FillSpinBoxValueFromMemory(spbGateOffset[ID][ch], PSD::CH::GateOffset, ch); FillSpinBoxValueFromMemory(spbLongChargeIntergratorPedestal[ID][ch], PSD::CH::LongChargeIntegratorPedestal, ch); FillSpinBoxValueFromMemory(spbShortChargeIntergratorPedestal[ID][ch], PSD::CH::ShortChargeIntegratorPedestal, ch); FillComboBoxValueFromMemory(cbbEnergyGain[ID][ch], PSD::CH::EnergyGain, ch); FillSpinBoxValueFromMemory(spbNeutronThreshold[ID][ch], PSD::CH::NeutronThreshold, ch); FillComboBoxValueFromMemory(cbbEventNeutronReject[ID][ch], PSD::CH::EventNeutronReject, ch); FillComboBoxValueFromMemory(cbbWaveNeutronReject[ID][ch], PSD::CH::WaveNeutronReject, ch); } } //------ Trigger Mask if( cbChPick[ID]->currentData().toInt() < 0 ) { unsigned long mask = Utility::TenBase(digi[ID]->GetSettingValueFromMemory(PHA::CH::ChannelsTriggerMask, 0)); bool isSame = true; for(int ch = 1; ch < digi[ID]->GetNChannels() ; ch ++){ unsigned long haha = Utility::TenBase(digi[ID]->GetSettingValueFromMemory(PHA::CH::ChannelsTriggerMask, ch)); if( mask != haha) { isSame = false; leTriggerMask[ID][digi[ID]->GetNChannels()]->setText("Diff. value"); break; } } if( isSame ) leTriggerMask[ID][digi[ID]->GetNChannels()]->setText("0x" + QString::number(mask, 16).toUpper()); }else{ unsigned long mask = Utility::TenBase(digi[ID]->GetSettingValueFromMemory(PHA::CH::ChannelsTriggerMask, cbChPick[ID]->currentData().toInt())); leTriggerMask[ID][digi[ID]->GetNChannels()]->setText("0x" + QString::number(mask, 16).toUpper()); leTriggerMask[ID][digi[ID]->GetNChannels()]->setStyleSheet(""); } enableSignalSlot = true; ReadTriggerMap(); if( cbChPick[ID]->currentData().toInt() >= 0 ) return; SyncComboBox(cbbOnOff , -1); SyncSpinBox(spbDCOffset , -1); SyncSpinBox(spbThreshold , -1); SyncComboBox(cbbParity , -1); SyncSpinBox(spbRecordLength , -1); SyncSpinBox(spbPreTrigger , -1); SyncComboBox(cbbWaveSource, -1); SyncComboBox(cbbWaveRes, -1); SyncComboBox(cbbWaveSave, -1); SyncComboBox(cbbAnaProbe0, -1); SyncComboBox(cbbAnaProbe1, -1); SyncComboBox(cbbDigProbe0, -1); SyncComboBox(cbbDigProbe1, -1); SyncComboBox(cbbDigProbe2, -1); SyncComboBox(cbbDigProbe3, -1); SyncComboBox(cbbEventSelector, -1); SyncComboBox(cbbWaveSelector , -1); SyncSpinBox(spbEnergySkimHigh, -1); SyncSpinBox(spbEnergySkimLow , -1); SyncComboBox(cbbEvtTrigger , -1); SyncComboBox(cbbWaveTrigger , -1); SyncComboBox(cbbChVetoSrc , -1); SyncComboBox(cbbCoinMask , -1); SyncComboBox(cbbAntiCoinMask , -1); SyncSpinBox(spbCoinLength , -1); SyncSpinBox(spbADCVetoWidth , -1); if( digi[ID]->GetFPGAType() == DPPType::PHA){ SyncSpinBox(spbInputRiseTime , -1); SyncSpinBox(spbTriggerGuard , -1); SyncComboBox(cbbLowFilter , -1); SyncSpinBox(spbTrapRiseTime , -1); SyncSpinBox(spbTrapFlatTop , -1); SyncSpinBox(spbTrapPoleZero , -1); SyncSpinBox(spbPeaking , -1); SyncSpinBox(spbBaselineGuard , -1); SyncSpinBox(spbPileupGuard , -1); SyncComboBox(cbbBaselineAvg , -1); SyncComboBox(cbbPeakingAvg , -1); SyncSpinBox(spbFineGain , -1); } if( digi[ID]->GetFPGAType() == DPPType::PSD){ SyncComboBox(cbbADCInputBaselineAvg , -1); SyncSpinBox(spbAbsBaseline , -1); SyncSpinBox(spbADCInputBaselineGuard, -1); SyncComboBox(cbbTriggerFilter , -1); SyncComboBox(cbbTriggerHysteresis , -1); SyncSpinBox(spbCFDDelay , -1); SyncSpinBox(spbCFDFraction , -1); SyncComboBox(cbbSmoothingFactor , -1); SyncComboBox(cbbChargeSmooting , -1); SyncComboBox(cbbTimeFilterSmoothing , -1); SyncSpinBox(spbTimeFilterReTriggerGuard, -1); SyncSpinBox(spbPileupGap , -1); SyncSpinBox(spbGateLong , -1); SyncSpinBox(spbGateShort , -1); SyncSpinBox(spbGateOffset , -1); SyncSpinBox(spbLongChargeIntergratorPedestal , -1); SyncSpinBox(spbShortChargeIntergratorPedestal, -1); SyncComboBox(cbbEnergyGain , -1); SyncSpinBox(spbNeutronThreshold , -1); SyncComboBox(cbbEventNeutronReject, -1); SyncComboBox(cbbWaveNeutronReject , -1); } } //^########################################################################### void DigiSettingsPanel::SetStartSource(){ if( !enableSignalSlot ) return; std::string value = ""; for( int i = 0; i < (int) PHA::DIG::StartSource.GetAnswers().size(); i++){ if( ckbStartSource[ID][i]->isChecked() ){ //printf("----- %s \n", DIGIPARA::DIG::StartSource.GetAnswers()[i].first.c_str()); if( value != "" ) value += " | "; value += PHA::DIG::StartSource.GetAnswers()[i].first; } } //printf("================ %s\n", value.c_str()); QString msg; msg = "DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + "|" + QString::fromStdString(PHA::DIG::StartSource.GetPara()); msg += " = " + QString::fromStdString(value); if( digi[ID]->WriteValue(PHA::DIG::StartSource, value) ){ SendLogMsg(msg + "|OK."); for( int i = 0; i < (int) PHA::DIG::StartSource.GetAnswers().size(); i++){ ckbStartSource[ID][i]->setStyleSheet(""); } }else{ SendLogMsg(msg + "|Fail."); for( int i = 0; i < (int) PHA::DIG::StartSource.GetAnswers().size(); i++){ ckbStartSource[ID][i]->setStyleSheet("background-color : red"); } } } void DigiSettingsPanel::SetGlobalTriggerSource(){ if( !enableSignalSlot ) return; std::string value = ""; if( cbDACoutMode[ID]->currentData().toString().toStdString() != "Square") bdTestPulse[ID]->setEnabled(false); for( int i = 0; i < (int) PHA::DIG::GlobalTriggerSource.GetAnswers().size(); i++){ if( ckbGlbTrgSource[ID][i]->isChecked() ){ //printf("----- %s \n", DIGIPARA::DIG::StartSource.GetAnswers()[i].first.c_str()); if( value != "" ) value += " | "; value += PHA::DIG::GlobalTriggerSource.GetAnswers()[i].first; if( PHA::DIG::GlobalTriggerSource.GetAnswers()[i].first == "TestPulse" ) bdTestPulse[ID]->setEnabled(true); } } //printf("================ %s\n", value.c_str()); QString msg; msg = "DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + "|" + QString::fromStdString(PHA::DIG::GlobalTriggerSource.GetPara()); msg += " = " + QString::fromStdString(value); SendLogMsg(msg); if( digi[ID]->WriteValue(PHA::DIG::GlobalTriggerSource, value) ){ SendLogMsg(msg + "|OK."); for( int i = 0; i < (int) PHA::DIG::GlobalTriggerSource.GetAnswers().size(); i++){ ckbGlbTrgSource[ID][i]->setStyleSheet(""); } }else{ SendLogMsg(msg + "|Fail."); for( int i = 0; i < (int) PHA::DIG::GlobalTriggerSource.GetAnswers().size(); i++){ ckbGlbTrgSource[ID][i]->setStyleSheet("background-color : red"); } } } //^########################################################################### void DigiSettingsPanel::SetupShortComboBox(RComboBox *&cbb, Reg para){ for( int i = 0 ; i < (int) para.GetAnswers().size(); i++){ cbb->addItem(QString::fromStdString((para.GetAnswers())[i].second), QString::fromStdString((para.GetAnswers())[i].first)); } } void DigiSettingsPanel::SetupComboBox(RComboBox *&cbb, const Reg para, int ch_index, bool isMaster, QString labelTxt, QGridLayout *layout, int row, int col, int srow, int scol){ QLabel * lb = new QLabel(labelTxt, this); layout->addWidget(lb, row, col); lb->setAlignment(Qt::AlignRight | Qt::AlignCenter); cbb = new RComboBox(this); layout->addWidget(cbb, row, col+1, srow, scol); for( int i = 0 ; i < (int) para.GetAnswers().size(); i++){ cbb->addItem(QString::fromStdString((para.GetAnswers())[i].second), QString::fromStdString((para.GetAnswers())[i].first)); } if( ch_index == -1 && para.GetType() == TYPE::CH ) cbb->addItem(""); connect(cbb, &RComboBox::currentIndexChanged, this, [=](){ if( !enableSignalSlot ) return; int index = ( ch_index == -1 && isMaster ? cbChPick[ID]->currentData().toInt() : ch_index); //int index = ch_index; //printf("%s %d %s \n", para.GetPara().c_str(), index, cbb->currentData().toString().toStdString().c_str()); QString msg; msg = "DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + "|" + QString::fromStdString(para.GetPara()); if( para.GetType() == TYPE::CH ) msg += ",CH:" + (index == -1 ? "All" : QString::number(index)); if( para.GetType() == TYPE::VGA ) msg += ",VGA:" + QString::number(index); msg += " = " + cbb->currentData().toString(); if( digi[ID]->WriteValue(para, cbb->currentData().toString().toStdString(), index)){ SendLogMsg(msg + "|OK."); cbb->setStyleSheet(""); UpdatePanelFromMemory(); UpdateOtherPanels(); }else{ SendLogMsg(msg + "|Fail."); cbb->setStyleSheet("color:red;"); } }); } void DigiSettingsPanel::SetupSpinBox(RSpinBox *&spb, const Reg para, int ch_index, bool isMaster, QString labelTxt, QGridLayout *layout, int row, int col, int srow, int scol){ QLabel * lb = new QLabel(labelTxt, this); layout->addWidget(lb, row, col); lb->setAlignment(Qt::AlignRight| Qt::AlignCenter); spb = new RSpinBox(this); if( isMaster ){ spb->setMinimum(qMin(-1.0, atof( para.GetAnswers()[0].first.c_str()))); }else{ spb->setMinimum(atof( para.GetAnswers()[0].first.c_str())); } spb->setMaximum(atof( para.GetAnswers()[1].first.c_str())); if( para.GetAnswers().size() >= 3 ) { spb->setSingleStep(atof(para.GetAnswers()[2].first.c_str())); }else{ printf("--- missed. %s\n", para.GetPara().c_str()); } spb->SetToolTip( atof( para.GetAnswers()[0].first.c_str())); layout->addWidget(spb, row, col + 1, srow, scol); connect(spb, &RSpinBox::valueChanged, this, [=](){ if( !enableSignalSlot ) return; spb->setStyleSheet("color:blue;"); }); connect(spb, &RSpinBox::returnPressed, this, [=](){ if( !enableSignalSlot ) return; //printf("%s %d %d \n", para.GetPara().c_str(), index, spb->value()); if( spb->decimals() == 0 && spb->singleStep() != 1) { double step = spb->singleStep(); double value = spb->value(); spb->setValue( (std::round(value/step) * step) ); } int index = ( ch_index == -1 && isMaster ? cbChPick[ID]->currentData().toInt() : ch_index); QString msg; msg = "DIG:"+ QString::number(digi[ID]->GetSerialNumber()) + "|" + QString::fromStdString(para.GetPara()) ; if( para.GetType() == TYPE::CH ) msg += ",CH:" + (index == -1 ? "All" : QString::number(index)); msg += " = " + QString::number(spb->value()); if( para.GetPara() == PHA::GROUP::InputDelay.GetPara() ){ if( digi[ID]->WriteValue(para, std::to_string(spb->value()/8), index)){ SendLogMsg(msg + "|OK."); spb->setStyleSheet(""); UpdatePanelFromMemory(); UpdateOtherPanels(); }else{ SendLogMsg(msg + "|Fail."); spb->setStyleSheet("color:red;"); } // printf("============%d| %s \n", index, digi[ID]->GetSettingValueFromMemory(PHA::GROUP::InputDelay, index).c_str()); }else{ if( digi[ID]->WriteValue(para, std::to_string(spb->value()), index)){ SendLogMsg(msg + "|OK."); spb->setStyleSheet(""); UpdatePanelFromMemory(); UpdateOtherPanels(); }else{ SendLogMsg(msg + "|Fail."); spb->setStyleSheet("color:red;"); } } }); } void DigiSettingsPanel::SyncComboBox(RComboBox *(&cbb)[][MaxNumberOfChannel + 1], int ch){ if( !enableSignalSlot ) return; if( cbChPick[ID]->currentData().toInt() >= 0 ) return; const int nCh = digi[ID]->GetNChannels(); if( ch == nCh ){ const int index = cbb[ID][nCh]->currentIndex(); if( cbb[ID][nCh]->currentText() == "" ) return; enableSignalSlot = false; for( int i = 0; i < nCh; i++) cbb[ID][i]->setCurrentIndex(index); enableSignalSlot = true; }else{ //check is all ComboBox has same index; int count = 1; const int index = cbb[ID][0]->currentIndex(); for( int i = 1; i < nCh; i ++){ if( cbb[ID][i]->currentIndex() == index ) count++; } enableSignalSlot = false; if( count != nCh ){ cbb[ID][nCh]->setCurrentText(""); }else{ cbb[ID][nCh]->setCurrentIndex(index); } enableSignalSlot = true; } } void DigiSettingsPanel::SyncSpinBox(RSpinBox *(&spb)[][MaxNumberOfChannel+1], int ch){ if( !enableSignalSlot ) return; const int nCh = digi[ID]->GetNChannels(); if( ch == nCh ){ const int value = spb[ID][nCh]->value(); if( spb[ID][nCh]->value() == -999 ) return; enableSignalSlot = false; for( int i = 0; i < nCh; i++) spb[ID][i]->setValue(value); enableSignalSlot = true; }else{ //check is all ComboBox has same index; int count = 1; const int value = spb[ID][0]->value(); for( int i = 1; i < nCh; i ++){ if( spb[ID][i]->value() == value ) count++; } //printf("%d =? %d \n", count, nCh); enableSignalSlot = false; if( count != nCh ){ spb[ID][nCh]->setValue(-1); }else{ spb[ID][nCh]->setValue(value); } enableSignalSlot = true; } } void DigiSettingsPanel::SetupSpinBoxTab(RSpinBox *(&spb)[][MaxNumberOfChannel+1], const Reg para, QString text, QTabWidget *tabWidget, int iDigi, int nChannel){ QWidget * tabPage = new QWidget(this); tabWidget->addTab(tabPage, text); QGridLayout * allLayout = new QGridLayout(tabPage); //allLayout->setAlignment(Qt::AlignTop | Qt::AlignHCenter); allLayout->setAlignment(Qt::AlignTop); allLayout->setHorizontalSpacing(10); allLayout->setVerticalSpacing(0); for( int ch = 0; ch < nChannel; ch++){ SetupSpinBox(spb[iDigi][ch], para, ch, false, "ch-"+QString::number(ch)+ " ", allLayout, ch/4, ch%4 * 2); } } void DigiSettingsPanel::SetupComboBoxTab(RComboBox *(&cbb)[][MaxNumberOfChannel + 1], const Reg para, QString text, QTabWidget *tabWidget, int iDigi, int nChannel, int nCol){ QWidget * tabPage = new QWidget(this); tabWidget->addTab(tabPage, text); QGridLayout * allLayout = new QGridLayout(tabPage); //allLayout->setAlignment(Qt::AlignTop | Qt::AlignHCenter); allLayout->setAlignment(Qt::AlignTop); allLayout->setHorizontalSpacing(10); allLayout->setVerticalSpacing(0); for( int ch = 0; ch < nChannel; ch++){ SetupComboBox(cbb[iDigi][ch], para, ch, false, "ch-"+QString::number(ch) + " ", allLayout, ch/nCol, ch%nCol * 3); } } void DigiSettingsPanel::FillComboBoxValueFromMemory(RComboBox *&cbb, const Reg para, int ch_index){ QString result = QString::fromStdString(digi[ID]->GetSettingValueFromMemory(para, ch_index)); //printf("%s === %s, %d, %p\n", __func__, result.toStdString().c_str(), ID, cbb); int index = cbb->findData(result); if( index >= 0 && index < cbb->count()) { cbb->setCurrentIndex(index); }else{ //printf("%s %s\n", para.GetPara().c_str(), result.toStdString().c_str()); } } void DigiSettingsPanel::FillSpinBoxValueFromMemory(RSpinBox *&spb, const Reg para, int ch_index){ QString result = QString::fromStdString(digi[ID]->GetSettingValueFromMemory(para, ch_index)); //printf("%s === %s, %d, %p\n", __func__, result.toStdString().c_str(), ID, spb); if( para.GetPara() == PHA::GROUP::InputDelay.GetPara() && digi[ID]->GetCupVer() >= MIN_VERSION_GROUP) { spb->setValue(result.toDouble()*8); }else{ spb->setValue(result.toDouble()); } } void DigiSettingsPanel::ReadBoardSetting(int cbIndex){ if( enableSignalSlot == false ) return; enableSignalSlot = false; // PHA and PSD has same board setting, but for furture extension int ID = cbIQDigi->currentIndex(); std::vector bdSettings ; if( digi[ID]->GetFPGAType() == DPPType::PHA ) { bdSettings = PHA::DIG::AllSettings; }else if( digi[ID]->GetFPGAType() == DPPType::PSD ) { bdSettings = PSD::DIG::AllSettings; }else{ enableSignalSlot = true; return; } QString type; switch (bdSettings[cbIndex].ReadWrite()) { case RW::ReadOnly : type ="Read Only"; break; case RW::WriteOnly : type ="Write Only"; break; case RW::ReadWrite : type ="Read/Write"; break; } leBdSettingsType->setText(type); QString ans = QString::fromStdString(digi[ID]->ReadValue(bdSettings[cbIndex])); ANSTYPE haha = bdSettings[cbIndex].GetAnswerType(); if( haha == ANSTYPE::BYTE){ leBdSettingsRead->setText( "0x" + QString::number(ans.toULong(), 16).rightJustified(16, '0')); }else if( haha == ANSTYPE::BINARY ){ leBdSettingsRead->setText( "0b" + QString::number(ans.toUInt(), 2).rightJustified(18, '0')); }else{ leBdSettingsRead->setText(ans); } leBdSettingsUnit->setText(QString::fromStdString(bdSettings[cbIndex].GetUnit())); if( bdSettings[cbIndex].ReadWrite() != RW::ReadOnly && haha != ANSTYPE::NONE ){ //===== spin box if( haha == ANSTYPE::FLOAT || haha == ANSTYPE::INTEGER ){ cbBdAns->clear(); cbBdAns->setEnabled(false); leBdSettingsWrite->setEnabled(false); leBdSettingsWrite->clear(); sbBdSettingsWrite->setEnabled(true); sbBdSettingsWrite->setMinimum(atof(bdSettings[cbIndex].GetAnswers()[0].first.c_str())); sbBdSettingsWrite->setMaximum(atof(bdSettings[cbIndex].GetAnswers()[1].first.c_str())); sbBdSettingsWrite->setSingleStep(atof(bdSettings[cbIndex].GetAnswers()[2].first.c_str())); sbBdSettingsWrite->setValue(00); sbBdSettingsWrite->setDecimals(0); } if( haha == ANSTYPE::FLOAT) sbBdSettingsWrite->setDecimals(3); //===== combo Box if( haha == ANSTYPE::COMBOX){ cbBdAns->setEnabled(true); cbBdAns->clear(); int ansIndex = -1; QString ans2 = ""; for( int i = 0; i < (int) bdSettings[cbIndex].GetAnswers().size(); i++){ cbBdAns->addItem(QString::fromStdString(bdSettings[cbIndex].GetAnswers()[i].second), QString::fromStdString(bdSettings[cbIndex].GetAnswers()[i].first)); if( ans == QString::fromStdString(bdSettings[cbIndex].GetAnswers()[i].first)) { ansIndex = i; ans2 = QString::fromStdString(bdSettings[cbIndex].GetAnswers()[i].second); } } cbBdAns->setCurrentIndex(ansIndex); leBdSettingsRead->setText( ans + " [ " + ans2 + " ]"); sbBdSettingsWrite->setEnabled(false); sbBdSettingsWrite->setStyleSheet(""); sbBdSettingsWrite->setValue(0); leBdSettingsWrite->setEnabled(false); leBdSettingsWrite->setText(ans); } //===== lineEdit if( haha == ANSTYPE::STR || haha == ANSTYPE::BYTE || haha == ANSTYPE::BINARY){ cbBdAns->clear(); cbBdAns->setEnabled(false); leBdSettingsWrite->setEnabled(true); leBdSettingsWrite->clear(); sbBdSettingsWrite->setEnabled(false); sbBdSettingsWrite->setStyleSheet(""); sbBdSettingsWrite->setValue(0); } }else{ cbBdAns->clear(); cbBdAns->setEnabled(false); sbBdSettingsWrite->setEnabled(false); sbBdSettingsWrite->setStyleSheet(""); sbBdSettingsWrite->cleanText(); leBdSettingsWrite->setEnabled(false); leBdSettingsWrite->clear(); } if( bdSettings[cbIndex].GetPara() == PHA::DIG::StartSource.GetPara() || bdSettings[cbIndex].GetPara() == PHA::DIG::GlobalTriggerSource.GetPara() ){ leBdSettingsWrite->setEnabled(true); leBdSettingsWrite->clear(); } enableSignalSlot = true; } void DigiSettingsPanel::ReadChannelSetting(int cbIndex){ if( enableSignalSlot == false ) return; enableSignalSlot = false; int ID = cbIQDigi->currentIndex(); std::vector chSettings ; if( digi[ID]->GetFPGAType() == DPPType::PHA ) { chSettings = PHA::CH::AllSettings; }else if( digi[ID]->GetFPGAType() == DPPType::PSD ) { chSettings = PSD::CH::AllSettings; }else{ enableSignalSlot = true; return; } QString type; switch (chSettings[cbIndex].ReadWrite()) { case RW::ReadOnly : type ="Read Only"; break; case RW::WriteOnly : type ="Write Only"; break; case RW::ReadWrite : type ="Read/Write"; break; } leChSettingsType->setText(type); QString ans = QString::fromStdString(digi[ID]->ReadValue(chSettings[cbIndex], cbIQCh->currentData().toInt())); ANSTYPE haha = chSettings[cbIndex].GetAnswerType(); if( haha == ANSTYPE::BYTE){ leChSettingsRead->setText( "0x" + QString::number(ans.toULong(), 16).rightJustified(16, '0')); }else if( haha == ANSTYPE::BINARY ){ leChSettingsRead->setText( "0b" + QString::number(ans.toUInt(), 2).rightJustified(18, '0')); }else{ leChSettingsRead->setText(ans); } leChSettingsUnit->setText(QString::fromStdString(chSettings[cbIndex].GetUnit())); if( chSettings[cbIndex].ReadWrite() != RW::ReadOnly && haha != ANSTYPE::NONE ){ if( haha == ANSTYPE::FLOAT || haha == ANSTYPE::INTEGER ){ cbChSettingsWrite->clear(); cbChSettingsWrite->setEnabled(false); leChSettingsWrite->setEnabled(false); leChSettingsWrite->clear(); sbChSettingsWrite->setEnabled(true); sbChSettingsWrite->setMinimum(atof(chSettings[cbIndex].GetAnswers()[0].first.c_str())); sbChSettingsWrite->setMaximum(atof(chSettings[cbIndex].GetAnswers()[1].first.c_str())); sbChSettingsWrite->setSingleStep(atof(chSettings[cbIndex].GetAnswers()[2].first.c_str())); sbChSettingsWrite->setValue(ans.toFloat()); sbChSettingsWrite->setDecimals(3); } if( haha == ANSTYPE::INTEGER) sbBdSettingsWrite->setDecimals(0); if( haha == ANSTYPE::COMBOX){ cbChSettingsWrite->setEnabled(true); cbChSettingsWrite->clear(); int ansIndex = -1; QString ans2 = ""; for( int i = 0; i < (int) chSettings[cbIndex].GetAnswers().size(); i++){ cbChSettingsWrite->addItem(QString::fromStdString(chSettings[cbIndex].GetAnswers()[i].second), QString::fromStdString(chSettings[cbIndex].GetAnswers()[i].first)); if( ans == QString::fromStdString(chSettings[cbIndex].GetAnswers()[i].first)) { ansIndex = i; ans2 = QString::fromStdString(chSettings[cbIndex].GetAnswers()[i].second); } } cbChSettingsWrite->setCurrentIndex(ansIndex); leChSettingsRead->setText( ans + " [ " + ans2 + " ]"); sbChSettingsWrite->setEnabled(false); sbChSettingsWrite->setStyleSheet(""); sbChSettingsWrite->setValue(0); leChSettingsWrite->setEnabled(false); leChSettingsWrite->setText(ans2); } if( haha == ANSTYPE::STR || haha == ANSTYPE::BYTE || haha == ANSTYPE::BINARY){ cbChSettingsWrite->clear(); cbChSettingsWrite->setEnabled(false); leChSettingsWrite->setEnabled(true); leChSettingsWrite->clear(); sbChSettingsWrite->setEnabled(false); sbChSettingsWrite->setStyleSheet(""); sbChSettingsWrite->setValue(0); } }else{ cbChSettingsWrite->clear(); cbChSettingsWrite->setEnabled(false); sbChSettingsWrite->setEnabled(false); sbChSettingsWrite->setStyleSheet(""); sbChSettingsWrite->cleanText(); leChSettingsWrite->setEnabled(false); leChSettingsWrite->clear(); } enableSignalSlot = true; } bool DigiSettingsPanel::CheckDigitizersCanCopy(){ int digiFromIndex = cbCopyDigiFrom->currentIndex(); int digiToIndex = cbCopyDigiTo->currentIndex(); if( digi[digiFromIndex]->GetModelName() != digi[digiToIndex]->GetModelName() ) return false; if( digi[digiFromIndex]->GetFPGAType() != digi[digiToIndex]->GetFPGAType() ) return false; if( digi[digiFromIndex]->GetFPGAVersion() != digi[digiToIndex]->GetFPGAVersion() ) return false; return true; } void DigiSettingsPanel::CheckRadioAndCheckedButtons(){ int chFromIndex = -1; for( int i = 0 ; i < MaxNumberOfChannel ; i++){ rbCopyChFrom[i]->setStyleSheet(""); if( rbCopyChFrom[i]->isChecked() && cbCopyDigiFrom->currentIndex() == cbCopyDigiTo->currentIndex()){ chFromIndex = i; rbCopyChFrom[i]->setStyleSheet("color : red;"); chkChTo[i]->setChecked(false); chkChTo[i]->setStyleSheet(""); } } for( int i = 0 ; i < MaxNumberOfChannel ; i++) chkChTo[i]->setEnabled(true); if( chFromIndex >= 0 && cbCopyDigiFrom->currentIndex() == cbCopyDigiTo->currentIndex() ) chkChTo[chFromIndex]->setEnabled(false); bool isToIndexCleicked = false; for( int i = 0 ; i < MaxNumberOfChannel ; i++){ if( chkChTo[i]->isChecked() ){ isToIndexCleicked = true; chkChTo[i]->setStyleSheet("color : blue;"); }else{ chkChTo[i]->setStyleSheet(""); } } pbCopyChannel->setEnabled(chFromIndex >= 0 && isToIndexCleicked ); } bool DigiSettingsPanel::CopyChannelSettings(int digiFrom, int chFrom, int digiTo, int chTo){ if( !CheckDigitizersCanCopy() ) return false; SendLogMsg("Copy Settings from DIG:" + QString::number(digi[digiFrom]->GetSerialNumber()) + ", CH:" + QString::number(chFrom) + " ---> DIG:" + QString::number(digi[digiTo]->GetSerialNumber()) + ", CH:" + QString::number(chTo)); for( int k = 0; k < (int) PHA::CH::AllSettings.size(); k ++){ if( PHA::CH::AllSettings[k].ReadWrite() != RW::ReadWrite ) continue; std::string haha = digi[digiFrom]->GetSettingValueFromMemory(PHA::CH::AllSettings[k], chFrom); if( !digi[digiTo]->WriteValue( PHA::CH::AllSettings[k], haha , chTo ) ){ SendLogMsg("something wrong when copying setting : " + QString::fromStdString( PHA::CH::AllSettings[k].GetPara())) ; return false; break; } } return true; } bool DigiSettingsPanel::CopyBoardSettings(){ int digiFromIndex = cbCopyDigiFrom->currentIndex(); int digiToIndex = cbCopyDigiTo->currentIndex(); if( !CheckDigitizersCanCopy() ) return false; SendLogMsg("Copy Settings from DIG:" + QString::number(digi[digiFromIndex]->GetSerialNumber()) + " to DIG:" + QString::number(digi[digiToIndex]->GetSerialNumber())); for( int i = 0; i < MaxNumberOfChannel; i++){ if( chkChTo[i]->isChecked() ){ //Copy setting for( int k = 0; k < (int) PHA::DIG::AllSettings.size(); k ++){ if( PHA::DIG::AllSettings[k].ReadWrite() != RW::ReadWrite ) continue; if( ! digi[digiToIndex]->WriteValue( PHA::DIG::AllSettings[k], digi[digiFromIndex]->GetSettingValueFromMemory(PHA::DIG::AllSettings[k])) ){ SendLogMsg("something wrong when copying setting : " + QString::fromStdString( PHA::DIG::AllSettings[k].GetPara())) ; return false; break; } } } } SendLogMsg("------ done"); return true; } bool DigiSettingsPanel::CopyWholeDigitizer(){ if( !CopyBoardSettings() ) return false; int digiTo = cbCopyDigiTo->currentIndex(); for( int ch = 0; ch < digi[ID]->GetNChannels() ; ch ++){ if ( ! CopyChannelSettings(cbCopyDigiFrom->currentIndex(), ch, digiTo, ch ) ) return false; } return true; }